directory

Faculty


denotes BioE faculty member.
  • Associate Professor
    • Physics
    Research Areas
    Bioimaging at Multi-Scale

    Bioimaging at Multi-Scale

    Developing technologies for quantitative imaging of the structure and function of biological systems.

    • Biosensors
    • Multi-Scale Tissue Engineering
    • Nanomedicine
    • Bio-Micro/Nanotechnology
    Bio-Micro and Nanotechnology

    Bio-Micro and Nanotechnology

    Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

    Synthetic Bioengineering

    Synthetic Bioengineering

    Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

    Molecular, Cellular and Tissue Engineering

    Molecular, Cellular and Tissue Engineering

    Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

    Computational and Systems Biology

    Computational and Systems Biology

    Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

    Research and BME Education

    Research and BME Education

    • Computational and Systems Biology
  • Associate Professor
    • Nuclear, Plasma, and Radiological Engineering
    Research Areas
    Bioimaging at Multi-Scale

    Bioimaging at Multi-Scale

    Developing technologies for quantitative imaging of the structure and function of biological systems.

    • Biosensors
    • Multi-Scale Tissue Engineering
    • Nanomedicine
    • Bio-Micro/Nanotechnology
    Bio-Micro and Nanotechnology

    Bio-Micro and Nanotechnology

    Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

    Synthetic Bioengineering

    Synthetic Bioengineering

    Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

    Molecular, Cellular and Tissue Engineering

    Molecular, Cellular and Tissue Engineering

    Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

    Computational and Systems Biology

    Computational and Systems Biology

    Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

    Research and BME Education

    Research and BME Education

    • Bio-Micro and Nanotechnology
  • Professor
    • Mechanical Science and Engineering
    Research Areas
    Bioimaging at Multi-Scale

    Bioimaging at Multi-Scale

    Developing technologies for quantitative imaging of the structure and function of biological systems.

    • Biosensors
    • Multi-Scale Tissue Engineering
    • Nanomedicine
    • Bio-Micro/Nanotechnology
    Bio-Micro and Nanotechnology

    Bio-Micro and Nanotechnology

    Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

    Synthetic Bioengineering

    Synthetic Bioengineering

    Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

    Molecular, Cellular and Tissue Engineering

    Molecular, Cellular and Tissue Engineering

    Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

    Computational and Systems Biology

    Computational and Systems Biology

    Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

    Research and BME Education

    Research and BME Education

    • Computational and Systems Biology
  • Teaching Associate Professor
    • Bioengineering
    Research Areas
    Bioimaging at Multi-Scale

    Bioimaging at Multi-Scale

    Developing technologies for quantitative imaging of the structure and function of biological systems.

    • Biosensors
    • Multi-Scale Tissue Engineering
    • Nanomedicine
    • Bio-Micro/Nanotechnology
    Bio-Micro and Nanotechnology

    Bio-Micro and Nanotechnology

    Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

    Synthetic Bioengineering

    Synthetic Bioengineering

    Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

    Molecular, Cellular and Tissue Engineering

    Molecular, Cellular and Tissue Engineering

    Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

    Computational and Systems Biology

    Computational and Systems Biology

    Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

    Research and BME Education

    Research and BME Education

    • Research and BME Education
    • Research Areas
      Bioimaging at Multi-Scale

      Bioimaging at Multi-Scale

      Developing technologies for quantitative imaging of the structure and function of biological systems.

      • Biosensors
      • Multi-Scale Tissue Engineering
      • Nanomedicine
      • Bio-Micro/Nanotechnology
      Bio-Micro and Nanotechnology

      Bio-Micro and Nanotechnology

      Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

      Synthetic Bioengineering

      Synthetic Bioengineering

      Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

      Molecular, Cellular and Tissue Engineering

      Molecular, Cellular and Tissue Engineering

      Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

      Computational and Systems Biology

      Computational and Systems Biology

      Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

      Research and BME Education

      Research and BME Education

      • Computational and Systems Biology
    • Associate Professor of Psychology
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Bioimaging at Multi-Scale
      • Professor
        • Beckman Institute for Advanced Science and Technology
        • Bioengineering
        • Carl R. Woese Institute for Genomic Biology
        • Micro and Nanotechnology Laboratory
        • NSF EBICS
        • NSF NanoBioNode
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Bio-Micro and Nanotechnology
      • Research Assistant Professor
        • Bioengineering
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Bioimaging at Multi-Scale
        • Research and BME Education
      • Associate Professor
        • Agricultural and Biological Engineering
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Bio-Micro and Nanotechnology
      • Founder Professor in Bioengineering and Bliss Faculty Scholar
        • Beckman Institute for Advanced Science and Technology
        • Bioengineering
        • Cancer Community @ Illinois
        • Chemical and Biomolecular Engineering
        • Chemistry
        • Electrical and Computer Engineering
        • Micro and Nanotechnology Laboratory
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Bioimaging at Multi-Scale
      • Abel Bliss Professor of Engineering and Director of Imaging at Illinois
        • Beckman Institute for Advanced Science and Technology
        • Bioengineering
        • Electrical and Computer Engineering
        • GSK Center for Optical Molecular Imaging
        • Internal Medicine
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Bioimaging at Multi-Scale
      • Professor
        • Electrical and Computer Engineering
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Bioimaging at Multi-Scale
      • Professor
        • Materials Science and Engineering
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Bio-Micro and Nanotechnology
      • Visiting Research Scientist
        • Bioengineering
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Research and BME Education
      • Donald Biggar Willett Professor of Engineering
        • Beckman Institute for Advanced Science and Technology
        • Bioengineering
        • Carl R. Woese Institute for Genomic Biology
        • Electrical and Computer Engineering
        • Micro and Nanotechnology Laboratory
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Bio-Micro and Nanotechnology
      • Assistant Professor
        • Bioengineering
        • Carl R. Woese Institute for Genomic Biology
        • Center for Biophysics and Quantitative Biology
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Computational and Systems Biology
      • Professor
        • Veterinary Biosciences
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Bio-Micro and Nanotechnology
      • Associate Professor
        • Electrical and Computer Engineering
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Bioimaging at Multi-Scale
      • Assistant Professor
        • Beckman Institute for Advanced Science and Technology
        • Bioengineering
        • Cancer Community @ Illinois
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Bioimaging at Multi-Scale
      • Professor
        • Electrical and Computer Engineering
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Bio-Micro and Nanotechnology
      • Professor Emeritus
        • Electrical and Computer Engineering
        Research Areas
        Bioimaging at Multi-Scale

        Bioimaging at Multi-Scale

        Developing technologies for quantitative imaging of the structure and function of biological systems.

        • Biosensors
        • Multi-Scale Tissue Engineering
        • Nanomedicine
        • Bio-Micro/Nanotechnology
        Bio-Micro and Nanotechnology

        Bio-Micro and Nanotechnology

        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

        Synthetic Bioengineering

        Synthetic Bioengineering

        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

        Molecular, Cellular and Tissue Engineering

        Molecular, Cellular and Tissue Engineering

        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

        Computational and Systems Biology

        Computational and Systems Biology

        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

        Research and BME Education

        Research and BME Education

        • Professor
          • Cell and Developmental Biology
          Research Areas
          Bioimaging at Multi-Scale

          Bioimaging at Multi-Scale

          Developing technologies for quantitative imaging of the structure and function of biological systems.

          • Biosensors
          • Multi-Scale Tissue Engineering
          • Nanomedicine
          • Bio-Micro/Nanotechnology
          Bio-Micro and Nanotechnology

          Bio-Micro and Nanotechnology

          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

          Synthetic Bioengineering

          Synthetic Bioengineering

          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

          Molecular, Cellular and Tissue Engineering

          Molecular, Cellular and Tissue Engineering

          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

          Computational and Systems Biology

          Computational and Systems Biology

          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

          Research and BME Education

          Research and BME Education

          • Bio-Micro and Nanotechnology
        • Associate Professor
          • Chemical and Biomolecular Engineering
          Research Areas
          Bioimaging at Multi-Scale

          Bioimaging at Multi-Scale

          Developing technologies for quantitative imaging of the structure and function of biological systems.

          • Biosensors
          • Multi-Scale Tissue Engineering
          • Nanomedicine
          • Bio-Micro/Nanotechnology
          Bio-Micro and Nanotechnology

          Bio-Micro and Nanotechnology

          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

          Synthetic Bioengineering

          Synthetic Bioengineering

          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

          Molecular, Cellular and Tissue Engineering

          Molecular, Cellular and Tissue Engineering

          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

          Computational and Systems Biology

          Computational and Systems Biology

          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

          Research and BME Education

          Research and BME Education

          • Molecular, Cellular and Tissue Engineering
        • Professor
          • Mechanical Science and Engineering
          Research Areas
          Bioimaging at Multi-Scale

          Bioimaging at Multi-Scale

          Developing technologies for quantitative imaging of the structure and function of biological systems.

          • Biosensors
          • Multi-Scale Tissue Engineering
          • Nanomedicine
          • Bio-Micro/Nanotechnology
          Bio-Micro and Nanotechnology

          Bio-Micro and Nanotechnology

          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

          Synthetic Bioengineering

          Synthetic Bioengineering

          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

          Molecular, Cellular and Tissue Engineering

          Molecular, Cellular and Tissue Engineering

          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

          Computational and Systems Biology

          Computational and Systems Biology

          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

          Research and BME Education

          Research and BME Education

          • Molecular, Cellular and Tissue Engineering
        • Assistant Professor
          • Beckman Institute for Advanced Science and Technology
          • Bioengineering
          • Carl R. Woese Institute for Genomic Biology
          Research Areas
          Bioimaging at Multi-Scale

          Bioimaging at Multi-Scale

          Developing technologies for quantitative imaging of the structure and function of biological systems.

          • Biosensors
          • Multi-Scale Tissue Engineering
          • Nanomedicine
          • Bio-Micro/Nanotechnology
          Bio-Micro and Nanotechnology

          Bio-Micro and Nanotechnology

          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

          Synthetic Bioengineering

          Synthetic Bioengineering

          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

          Molecular, Cellular and Tissue Engineering

          Molecular, Cellular and Tissue Engineering

          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

          Computational and Systems Biology

          Computational and Systems Biology

          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

          Research and BME Education

          Research and BME Education

          • Computational and Systems Biology
        • Donald Biggar Willett Professor of Engineering
          • Beckman Institute for Advanced Science and Technology
          • Bioengineering
          • Mayo-Illinois Alliance
          Research Areas
          Bioimaging at Multi-Scale

          Bioimaging at Multi-Scale

          Developing technologies for quantitative imaging of the structure and function of biological systems.

          • Biosensors
          • Multi-Scale Tissue Engineering
          • Nanomedicine
          • Bio-Micro/Nanotechnology
          Bio-Micro and Nanotechnology

          Bio-Micro and Nanotechnology

          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

          Synthetic Bioengineering

          Synthetic Bioengineering

          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

          Molecular, Cellular and Tissue Engineering

          Molecular, Cellular and Tissue Engineering

          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

          Computational and Systems Biology

          Computational and Systems Biology

          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

          Research and BME Education

          Research and BME Education

          • Bioimaging at Multi-Scale
        • Professor
          • Mechanical Science and Engineering
          Research Areas
          Bioimaging at Multi-Scale

          Bioimaging at Multi-Scale

          Developing technologies for quantitative imaging of the structure and function of biological systems.

          • Biosensors
          • Multi-Scale Tissue Engineering
          • Nanomedicine
          • Bio-Micro/Nanotechnology
          Bio-Micro and Nanotechnology

          Bio-Micro and Nanotechnology

          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

          Synthetic Bioengineering

          Synthetic Bioengineering

          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

          Molecular, Cellular and Tissue Engineering

          Molecular, Cellular and Tissue Engineering

          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

          Computational and Systems Biology

          Computational and Systems Biology

          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

          Research and BME Education

          Research and BME Education

          • Molecular, Cellular and Tissue Engineering
        • Teaching Assistant Professor
          • Bioengineering
          Research Areas
          Bioimaging at Multi-Scale

          Bioimaging at Multi-Scale

          Developing technologies for quantitative imaging of the structure and function of biological systems.

          • Biosensors
          • Multi-Scale Tissue Engineering
          • Nanomedicine
          • Bio-Micro/Nanotechnology
          Bio-Micro and Nanotechnology

          Bio-Micro and Nanotechnology

          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

          Synthetic Bioengineering

          Synthetic Bioengineering

          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

          Molecular, Cellular and Tissue Engineering

          Molecular, Cellular and Tissue Engineering

          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

          Computational and Systems Biology

          Computational and Systems Biology

          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

          Research and BME Education

          Research and BME Education

          • Research and BME Education
        • Research Assistant Professor
            Research Areas
            Bioimaging at Multi-Scale

            Bioimaging at Multi-Scale

            Developing technologies for quantitative imaging of the structure and function of biological systems.

            • Biosensors
            • Multi-Scale Tissue Engineering
            • Nanomedicine
            • Bio-Micro/Nanotechnology
            Bio-Micro and Nanotechnology

            Bio-Micro and Nanotechnology

            Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

            Synthetic Bioengineering

            Synthetic Bioengineering

            Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

            Molecular, Cellular and Tissue Engineering

            Molecular, Cellular and Tissue Engineering

            Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

            Computational and Systems Biology

            Computational and Systems Biology

            Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

            Research and BME Education

            Research and BME Education

            • Computational and Systems Biology
            • Research and BME Education
          • Assistant Professor
            • Food Science / Institute for Genomic Biology
            Research Areas
            Bioimaging at Multi-Scale

            Bioimaging at Multi-Scale

            Developing technologies for quantitative imaging of the structure and function of biological systems.

            • Biosensors
            • Multi-Scale Tissue Engineering
            • Nanomedicine
            • Bio-Micro/Nanotechnology
            Bio-Micro and Nanotechnology

            Bio-Micro and Nanotechnology

            Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

            Synthetic Bioengineering

            Synthetic Bioengineering

            Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

            Molecular, Cellular and Tissue Engineering

            Molecular, Cellular and Tissue Engineering

            Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

            Computational and Systems Biology

            Computational and Systems Biology

            Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

            Research and BME Education

            Research and BME Education

            • Synthetic Bioengineering
          • Professor
            • Chemical and Biomolecular Engineering
            Research Areas
            Bioimaging at Multi-Scale

            Bioimaging at Multi-Scale

            Developing technologies for quantitative imaging of the structure and function of biological systems.

            • Biosensors
            • Multi-Scale Tissue Engineering
            • Nanomedicine
            • Bio-Micro/Nanotechnology
            Bio-Micro and Nanotechnology

            Bio-Micro and Nanotechnology

            Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

            Synthetic Bioengineering

            Synthetic Bioengineering

            Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

            Molecular, Cellular and Tissue Engineering

            Molecular, Cellular and Tissue Engineering

            Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

            Computational and Systems Biology

            Computational and Systems Biology

            Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

            Research and BME Education

            Research and BME Education

            • Bio-Micro and Nanotechnology
          • Assistant Professor
            • Bioengineering
            • Materials Science and Engineering
            Research Areas
            Bioimaging at Multi-Scale

            Bioimaging at Multi-Scale

            Developing technologies for quantitative imaging of the structure and function of biological systems.

            • Biosensors
            • Multi-Scale Tissue Engineering
            • Nanomedicine
            • Bio-Micro/Nanotechnology
            Bio-Micro and Nanotechnology

            Bio-Micro and Nanotechnology

            Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

            Synthetic Bioengineering

            Synthetic Bioengineering

            Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

            Molecular, Cellular and Tissue Engineering

            Molecular, Cellular and Tissue Engineering

            Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

            Computational and Systems Biology

            Computational and Systems Biology

            Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

            Research and BME Education

            Research and BME Education

            • Molecular, Cellular and Tissue Engineering
          • Professor
            • Electrical and Computer Engineering
            Research Areas
            Bioimaging at Multi-Scale

            Bioimaging at Multi-Scale

            Developing technologies for quantitative imaging of the structure and function of biological systems.

            • Biosensors
            • Multi-Scale Tissue Engineering
            • Nanomedicine
            • Bio-Micro/Nanotechnology
            Bio-Micro and Nanotechnology

            Bio-Micro and Nanotechnology

            Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

            Synthetic Bioengineering

            Synthetic Bioengineering

            Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

            Molecular, Cellular and Tissue Engineering

            Molecular, Cellular and Tissue Engineering

            Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

            Computational and Systems Biology

            Computational and Systems Biology

            Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

            Research and BME Education

            Research and BME Education

            • Professor
              • Bioengineering
              • Carl R. Woese Institute for Genomic Biology
              • Chemical and Biomolecular Engineering
              • Pathobiology
              Research Areas
              Bioimaging at Multi-Scale

              Bioimaging at Multi-Scale

              Developing technologies for quantitative imaging of the structure and function of biological systems.

              • Biosensors
              • Multi-Scale Tissue Engineering
              • Nanomedicine
              • Bio-Micro/Nanotechnology
              Bio-Micro and Nanotechnology

              Bio-Micro and Nanotechnology

              Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

              Synthetic Bioengineering

              Synthetic Bioengineering

              Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

              Molecular, Cellular and Tissue Engineering

              Molecular, Cellular and Tissue Engineering

              Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

              Computational and Systems Biology

              Computational and Systems Biology

              Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

              Research and BME Education

              Research and BME Education

              • Molecular, Cellular and Tissue Engineering
            • Research Assistant Professor
              • Bioengineering
              Research Areas
              Bioimaging at Multi-Scale

              Bioimaging at Multi-Scale

              Developing technologies for quantitative imaging of the structure and function of biological systems.

              • Biosensors
              • Multi-Scale Tissue Engineering
              • Nanomedicine
              • Bio-Micro/Nanotechnology
              Bio-Micro and Nanotechnology

              Bio-Micro and Nanotechnology

              Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

              Synthetic Bioengineering

              Synthetic Bioengineering

              Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

              Molecular, Cellular and Tissue Engineering

              Molecular, Cellular and Tissue Engineering

              Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

              Computational and Systems Biology

              Computational and Systems Biology

              Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

              Research and BME Education

              Research and BME Education

              • Computational and Systems Biology
              • Research and BME Education
            • Professor
              • Bioengineering
              • Chemical and Biomolecular Engineering
              Research Areas
              Bioimaging at Multi-Scale

              Bioimaging at Multi-Scale

              Developing technologies for quantitative imaging of the structure and function of biological systems.

              • Biosensors
              • Multi-Scale Tissue Engineering
              • Nanomedicine
              • Bio-Micro/Nanotechnology
              Bio-Micro and Nanotechnology

              Bio-Micro and Nanotechnology

              Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

              Synthetic Bioengineering

              Synthetic Bioengineering

              Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

              Molecular, Cellular and Tissue Engineering

              Molecular, Cellular and Tissue Engineering

              Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

              Computational and Systems Biology

              Computational and Systems Biology

              Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

              Research and BME Education

              Research and BME Education

              • Molecular, Cellular and Tissue Engineering
              • Research Areas
                Bioimaging at Multi-Scale

                Bioimaging at Multi-Scale

                Developing technologies for quantitative imaging of the structure and function of biological systems.

                • Biosensors
                • Multi-Scale Tissue Engineering
                • Nanomedicine
                • Bio-Micro/Nanotechnology
                Bio-Micro and Nanotechnology

                Bio-Micro and Nanotechnology

                Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                Synthetic Bioengineering

                Synthetic Bioengineering

                Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                Molecular, Cellular and Tissue Engineering

                Molecular, Cellular and Tissue Engineering

                Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                Computational and Systems Biology

                Computational and Systems Biology

                Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                Research and BME Education

                Research and BME Education

                • Bioimaging at Multi-Scale
              • Professor
                • Electrical and Computer Engineering
                Research Areas
                Bioimaging at Multi-Scale

                Bioimaging at Multi-Scale

                Developing technologies for quantitative imaging of the structure and function of biological systems.

                • Biosensors
                • Multi-Scale Tissue Engineering
                • Nanomedicine
                • Bio-Micro/Nanotechnology
                Bio-Micro and Nanotechnology

                Bio-Micro and Nanotechnology

                Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                Synthetic Bioengineering

                Synthetic Bioengineering

                Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                Molecular, Cellular and Tissue Engineering

                Molecular, Cellular and Tissue Engineering

                Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                Computational and Systems Biology

                Computational and Systems Biology

                Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                Research and BME Education

                Research and BME Education

                • Bioimaging at Multi-Scale
              • Assistant Professor
                • Electrical and Computer Engineering
                Research Areas
                Bioimaging at Multi-Scale

                Bioimaging at Multi-Scale

                Developing technologies for quantitative imaging of the structure and function of biological systems.

                • Biosensors
                • Multi-Scale Tissue Engineering
                • Nanomedicine
                • Bio-Micro/Nanotechnology
                Bio-Micro and Nanotechnology

                Bio-Micro and Nanotechnology

                Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                Synthetic Bioengineering

                Synthetic Bioengineering

                Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                Molecular, Cellular and Tissue Engineering

                Molecular, Cellular and Tissue Engineering

                Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                Computational and Systems Biology

                Computational and Systems Biology

                Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                Research and BME Education

                Research and BME Education

                • Bio-Micro and Nanotechnology
              • Professor
                  Research Areas
                  Bioimaging at Multi-Scale

                  Bioimaging at Multi-Scale

                  Developing technologies for quantitative imaging of the structure and function of biological systems.

                  • Biosensors
                  • Multi-Scale Tissue Engineering
                  • Nanomedicine
                  • Bio-Micro/Nanotechnology
                  Bio-Micro and Nanotechnology

                  Bio-Micro and Nanotechnology

                  Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                  Synthetic Bioengineering

                  Synthetic Bioengineering

                  Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                  Molecular, Cellular and Tissue Engineering

                  Molecular, Cellular and Tissue Engineering

                  Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                  Computational and Systems Biology

                  Computational and Systems Biology

                  Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                  Research and BME Education

                  Research and BME Education

                  • Synthetic Bioengineering
                • Assistant Professor
                  • Bioengineering
                  • Carl R. Woese Institute for Genomic Biology
                  • NSF NanoBioNode
                  Research Areas
                  Bioimaging at Multi-Scale

                  Bioimaging at Multi-Scale

                  Developing technologies for quantitative imaging of the structure and function of biological systems.

                  • Biosensors
                  • Multi-Scale Tissue Engineering
                  • Nanomedicine
                  • Bio-Micro/Nanotechnology
                  Bio-Micro and Nanotechnology

                  Bio-Micro and Nanotechnology

                  Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                  Synthetic Bioengineering

                  Synthetic Bioengineering

                  Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                  Molecular, Cellular and Tissue Engineering

                  Molecular, Cellular and Tissue Engineering

                  Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                  Computational and Systems Biology

                  Computational and Systems Biology

                  Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                  Research and BME Education

                  Research and BME Education

                  • Synthetic Bioengineering
                • Professor
                  • Chemistry
                  Research Areas
                  Bioimaging at Multi-Scale

                  Bioimaging at Multi-Scale

                  Developing technologies for quantitative imaging of the structure and function of biological systems.

                  • Biosensors
                  • Multi-Scale Tissue Engineering
                  • Nanomedicine
                  • Bio-Micro/Nanotechnology
                  Bio-Micro and Nanotechnology

                  Bio-Micro and Nanotechnology

                  Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                  Synthetic Bioengineering

                  Synthetic Bioengineering

                  Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                  Molecular, Cellular and Tissue Engineering

                  Molecular, Cellular and Tissue Engineering

                  Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                  Computational and Systems Biology

                  Computational and Systems Biology

                  Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                  Research and BME Education

                  Research and BME Education

                  • Bio-Micro and Nanotechnology
                • Teaching Associate Professor
                  • Bioengineering
                  Research Areas
                  Bioimaging at Multi-Scale

                  Bioimaging at Multi-Scale

                  Developing technologies for quantitative imaging of the structure and function of biological systems.

                  • Biosensors
                  • Multi-Scale Tissue Engineering
                  • Nanomedicine
                  • Bio-Micro/Nanotechnology
                  Bio-Micro and Nanotechnology

                  Bio-Micro and Nanotechnology

                  Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                  Synthetic Bioengineering

                  Synthetic Bioengineering

                  Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                  Molecular, Cellular and Tissue Engineering

                  Molecular, Cellular and Tissue Engineering

                  Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                  Computational and Systems Biology

                  Computational and Systems Biology

                  Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                  Research and BME Education

                  Research and BME Education

                  • Research and BME Education
                • Professor and Bliss Faculty Scholar
                  • Bioengineering
                  • Brookhaven National Laboratory, Upton, NY
                  • Carl R. Woese Institute for Genomic Biology
                  • National Center for Supercomputing Applications
                  • Physics
                  Research Areas
                  Bioimaging at Multi-Scale

                  Bioimaging at Multi-Scale

                  Developing technologies for quantitative imaging of the structure and function of biological systems.

                  • Biosensors
                  • Multi-Scale Tissue Engineering
                  • Nanomedicine
                  • Bio-Micro/Nanotechnology
                  Bio-Micro and Nanotechnology

                  Bio-Micro and Nanotechnology

                  Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                  Synthetic Bioengineering

                  Synthetic Bioengineering

                  Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                  Molecular, Cellular and Tissue Engineering

                  Molecular, Cellular and Tissue Engineering

                  Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                  Computational and Systems Biology

                  Computational and Systems Biology

                  Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                  Research and BME Education

                  Research and BME Education

                  • Computational and Systems Biology
                • Associate Professor
                  • Nuclear, Plasma, and Radiological Engineering
                  Research Areas
                  Bioimaging at Multi-Scale

                  Bioimaging at Multi-Scale

                  Developing technologies for quantitative imaging of the structure and function of biological systems.

                  • Biosensors
                  • Multi-Scale Tissue Engineering
                  • Nanomedicine
                  • Bio-Micro/Nanotechnology
                  Bio-Micro and Nanotechnology

                  Bio-Micro and Nanotechnology

                  Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                  Synthetic Bioengineering

                  Synthetic Bioengineering

                  Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                  Molecular, Cellular and Tissue Engineering

                  Molecular, Cellular and Tissue Engineering

                  Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                  Computational and Systems Biology

                  Computational and Systems Biology

                  Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                  Research and BME Education

                  Research and BME Education

                  • Bioimaging at Multi-Scale
                • Professor
                  • Chemistry
                  Research Areas
                  Bioimaging at Multi-Scale

                  Bioimaging at Multi-Scale

                  Developing technologies for quantitative imaging of the structure and function of biological systems.

                  • Biosensors
                  • Multi-Scale Tissue Engineering
                  • Nanomedicine
                  • Bio-Micro/Nanotechnology
                  Bio-Micro and Nanotechnology

                  Bio-Micro and Nanotechnology

                  Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                  Synthetic Bioengineering

                  Synthetic Bioengineering

                  Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                  Molecular, Cellular and Tissue Engineering

                  Molecular, Cellular and Tissue Engineering

                  Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                  Computational and Systems Biology

                  Computational and Systems Biology

                  Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                  Research and BME Education

                  Research and BME Education

                  • Bio-Micro and Nanotechnology
                • Professor
                  • Electrical and Computer Engineering
                  Research Areas
                  Bioimaging at Multi-Scale

                  Bioimaging at Multi-Scale

                  Developing technologies for quantitative imaging of the structure and function of biological systems.

                  • Biosensors
                  • Multi-Scale Tissue Engineering
                  • Nanomedicine
                  • Bio-Micro/Nanotechnology
                  Bio-Micro and Nanotechnology

                  Bio-Micro and Nanotechnology

                  Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                  Synthetic Bioengineering

                  Synthetic Bioengineering

                  Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                  Molecular, Cellular and Tissue Engineering

                  Molecular, Cellular and Tissue Engineering

                  Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                  Computational and Systems Biology

                  Computational and Systems Biology

                  Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                  Research and BME Education

                  Research and BME Education

                  • Bioimaging at Multi-Scale
                • Associate Professor
                  • Electrical and Computer Engineering
                  Research Areas
                  Bioimaging at Multi-Scale

                  Bioimaging at Multi-Scale

                  Developing technologies for quantitative imaging of the structure and function of biological systems.

                  • Biosensors
                  • Multi-Scale Tissue Engineering
                  • Nanomedicine
                  • Bio-Micro/Nanotechnology
                  Bio-Micro and Nanotechnology

                  Bio-Micro and Nanotechnology

                  Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                  Synthetic Bioengineering

                  Synthetic Bioengineering

                  Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                  Molecular, Cellular and Tissue Engineering

                  Molecular, Cellular and Tissue Engineering

                  Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                  Computational and Systems Biology

                  Computational and Systems Biology

                  Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                  Research and BME Education

                  Research and BME Education

                  • Bioimaging at Multi-Scale
                • Assistant Professor
                  • Bioengineering
                  • Cancer Community @ Illinois
                  • Carle Biomedical Research Center
                  • Carle Foundation Hospital
                  Research Areas
                  Bioimaging at Multi-Scale

                  Bioimaging at Multi-Scale

                  Developing technologies for quantitative imaging of the structure and function of biological systems.

                  • Biosensors
                  • Multi-Scale Tissue Engineering
                  • Nanomedicine
                  • Bio-Micro/Nanotechnology
                  Bio-Micro and Nanotechnology

                  Bio-Micro and Nanotechnology

                  Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                  Synthetic Bioengineering

                  Synthetic Bioengineering

                  Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                  Molecular, Cellular and Tissue Engineering

                  Molecular, Cellular and Tissue Engineering

                  Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                  Computational and Systems Biology

                  Computational and Systems Biology

                  Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                  Research and BME Education

                  Research and BME Education

                  • Bioimaging at Multi-Scale
                • Assistant Professor
                  • Bioengineering
                  • Carl R. Woese Institute for Genomic Biology
                  Research Areas
                  Bioimaging at Multi-Scale

                  Bioimaging at Multi-Scale

                  Developing technologies for quantitative imaging of the structure and function of biological systems.

                  • Biosensors
                  • Multi-Scale Tissue Engineering
                  • Nanomedicine
                  • Bio-Micro/Nanotechnology
                  Bio-Micro and Nanotechnology

                  Bio-Micro and Nanotechnology

                  Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                  Synthetic Bioengineering

                  Synthetic Bioengineering

                  Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                  Molecular, Cellular and Tissue Engineering

                  Molecular, Cellular and Tissue Engineering

                  Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                  Computational and Systems Biology

                  Computational and Systems Biology

                  Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                  Research and BME Education

                  Research and BME Education

                  • Synthetic Bioengineering
                • Associate Professor Emeritus
                  • Bioengineering
                  Research Areas
                  Bioimaging at Multi-Scale

                  Bioimaging at Multi-Scale

                  Developing technologies for quantitative imaging of the structure and function of biological systems.

                  • Biosensors
                  • Multi-Scale Tissue Engineering
                  • Nanomedicine
                  • Bio-Micro/Nanotechnology
                  Bio-Micro and Nanotechnology

                  Bio-Micro and Nanotechnology

                  Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                  Synthetic Bioengineering

                  Synthetic Bioengineering

                  Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                  Molecular, Cellular and Tissue Engineering

                  Molecular, Cellular and Tissue Engineering

                  Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                  Computational and Systems Biology

                  Computational and Systems Biology

                  Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                  Research and BME Education

                  Research and BME Education

                  • Lecturer
                    • Bioengineering
                    Research Areas
                    Bioimaging at Multi-Scale

                    Bioimaging at Multi-Scale

                    Developing technologies for quantitative imaging of the structure and function of biological systems.

                    • Biosensors
                    • Multi-Scale Tissue Engineering
                    • Nanomedicine
                    • Bio-Micro/Nanotechnology
                    Bio-Micro and Nanotechnology

                    Bio-Micro and Nanotechnology

                    Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                    Synthetic Bioengineering

                    Synthetic Bioengineering

                    Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                    Molecular, Cellular and Tissue Engineering

                    Molecular, Cellular and Tissue Engineering

                    Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                    Computational and Systems Biology

                    Computational and Systems Biology

                    Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                    Research and BME Education

                    Research and BME Education

                    • Research and BME Education
                  • Assistant Professor
                    • Electrical and Computer Engineering
                    Research Areas
                    Bioimaging at Multi-Scale

                    Bioimaging at Multi-Scale

                    Developing technologies for quantitative imaging of the structure and function of biological systems.

                    • Biosensors
                    • Multi-Scale Tissue Engineering
                    • Nanomedicine
                    • Bio-Micro/Nanotechnology
                    Bio-Micro and Nanotechnology

                    Bio-Micro and Nanotechnology

                    Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                    Synthetic Bioengineering

                    Synthetic Bioengineering

                    Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                    Molecular, Cellular and Tissue Engineering

                    Molecular, Cellular and Tissue Engineering

                    Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                    Computational and Systems Biology

                    Computational and Systems Biology

                    Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                    Research and BME Education

                    Research and BME Education

                    • Bioimaging at Multi-Scale
                  • Associate Professor
                    • Chemical and Biomolecular Engineering
                    Research Areas
                    Bioimaging at Multi-Scale

                    Bioimaging at Multi-Scale

                    Developing technologies for quantitative imaging of the structure and function of biological systems.

                    • Biosensors
                    • Multi-Scale Tissue Engineering
                    • Nanomedicine
                    • Bio-Micro/Nanotechnology
                    Bio-Micro and Nanotechnology

                    Bio-Micro and Nanotechnology

                    Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                    Synthetic Bioengineering

                    Synthetic Bioengineering

                    Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                    Molecular, Cellular and Tissue Engineering

                    Molecular, Cellular and Tissue Engineering

                    Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                    Computational and Systems Biology

                    Computational and Systems Biology

                    Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                    Research and BME Education

                    Research and BME Education

                    • Synthetic Bioengineering
                  • Professor
                    • Mechanical Science and Engineering
                    Research Areas
                    Bioimaging at Multi-Scale

                    Bioimaging at Multi-Scale

                    Developing technologies for quantitative imaging of the structure and function of biological systems.

                    • Biosensors
                    • Multi-Scale Tissue Engineering
                    • Nanomedicine
                    • Bio-Micro/Nanotechnology
                    Bio-Micro and Nanotechnology

                    Bio-Micro and Nanotechnology

                    Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                    Synthetic Bioengineering

                    Synthetic Bioengineering

                    Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                    Molecular, Cellular and Tissue Engineering

                    Molecular, Cellular and Tissue Engineering

                    Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                    Computational and Systems Biology

                    Computational and Systems Biology

                    Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                    Research and BME Education

                    Research and BME Education

                    • Molecular, Cellular and Tissue Engineering
                    • Research Areas
                      Bioimaging at Multi-Scale

                      Bioimaging at Multi-Scale

                      Developing technologies for quantitative imaging of the structure and function of biological systems.

                      • Biosensors
                      • Multi-Scale Tissue Engineering
                      • Nanomedicine
                      • Bio-Micro/Nanotechnology
                      Bio-Micro and Nanotechnology

                      Bio-Micro and Nanotechnology

                      Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                      Synthetic Bioengineering

                      Synthetic Bioengineering

                      Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                      Molecular, Cellular and Tissue Engineering

                      Molecular, Cellular and Tissue Engineering

                      Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                      Computational and Systems Biology

                      Computational and Systems Biology

                      Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                      Research and BME Education

                      Research and BME Education

                      • Computational and Systems Biology
                    • Professor
                      • Animal Sciences
                      Research Areas
                      Bioimaging at Multi-Scale

                      Bioimaging at Multi-Scale

                      Developing technologies for quantitative imaging of the structure and function of biological systems.

                      • Biosensors
                      • Multi-Scale Tissue Engineering
                      • Nanomedicine
                      • Bio-Micro/Nanotechnology
                      Bio-Micro and Nanotechnology

                      Bio-Micro and Nanotechnology

                      Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                      Synthetic Bioengineering

                      Synthetic Bioengineering

                      Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                      Molecular, Cellular and Tissue Engineering

                      Molecular, Cellular and Tissue Engineering

                      Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                      Computational and Systems Biology

                      Computational and Systems Biology

                      Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                      Research and BME Education

                      Research and BME Education

                      • Molecular, Cellular and Tissue Engineering
                    • Assistant Professor
                      • Chemical and Biomolecular Engineering
                      Research Areas
                      Bioimaging at Multi-Scale

                      Bioimaging at Multi-Scale

                      Developing technologies for quantitative imaging of the structure and function of biological systems.

                      • Biosensors
                      • Multi-Scale Tissue Engineering
                      • Nanomedicine
                      • Bio-Micro/Nanotechnology
                      Bio-Micro and Nanotechnology

                      Bio-Micro and Nanotechnology

                      Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                      Synthetic Bioengineering

                      Synthetic Bioengineering

                      Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                      Molecular, Cellular and Tissue Engineering

                      Molecular, Cellular and Tissue Engineering

                      Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                      Computational and Systems Biology

                      Computational and Systems Biology

                      Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                      Research and BME Education

                      Research and BME Education

                      • Bio-Micro and Nanotechnology
                      • Research Areas
                        Bioimaging at Multi-Scale

                        Bioimaging at Multi-Scale

                        Developing technologies for quantitative imaging of the structure and function of biological systems.

                        • Biosensors
                        • Multi-Scale Tissue Engineering
                        • Nanomedicine
                        • Bio-Micro/Nanotechnology
                        Bio-Micro and Nanotechnology

                        Bio-Micro and Nanotechnology

                        Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                        Synthetic Bioengineering

                        Synthetic Bioengineering

                        Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                        Molecular, Cellular and Tissue Engineering

                        Molecular, Cellular and Tissue Engineering

                        Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                        Computational and Systems Biology

                        Computational and Systems Biology

                        Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                        Research and BME Education

                        Research and BME Education

                        • Bioimaging at Multi-Scale
                      • Research Assistant Professor
                          Research Areas
                          Bioimaging at Multi-Scale

                          Bioimaging at Multi-Scale

                          Developing technologies for quantitative imaging of the structure and function of biological systems.

                          • Biosensors
                          • Multi-Scale Tissue Engineering
                          • Nanomedicine
                          • Bio-Micro/Nanotechnology
                          Bio-Micro and Nanotechnology

                          Bio-Micro and Nanotechnology

                          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                          Synthetic Bioengineering

                          Synthetic Bioengineering

                          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                          Molecular, Cellular and Tissue Engineering

                          Molecular, Cellular and Tissue Engineering

                          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                          Computational and Systems Biology

                          Computational and Systems Biology

                          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                          Research and BME Education

                          Research and BME Education

                          • Bioimaging at Multi-Scale
                          • Research and BME Education
                        • Associate Professor
                          • Computer Science
                          Research Areas
                          Bioimaging at Multi-Scale

                          Bioimaging at Multi-Scale

                          Developing technologies for quantitative imaging of the structure and function of biological systems.

                          • Biosensors
                          • Multi-Scale Tissue Engineering
                          • Nanomedicine
                          • Bio-Micro/Nanotechnology
                          Bio-Micro and Nanotechnology

                          Bio-Micro and Nanotechnology

                          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                          Synthetic Bioengineering

                          Synthetic Bioengineering

                          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                          Molecular, Cellular and Tissue Engineering

                          Molecular, Cellular and Tissue Engineering

                          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                          Computational and Systems Biology

                          Computational and Systems Biology

                          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                          Research and BME Education

                          Research and BME Education

                          • Computational and Systems Biology
                        • Professor
                          • Biochemistry
                          Research Areas
                          Bioimaging at Multi-Scale

                          Bioimaging at Multi-Scale

                          Developing technologies for quantitative imaging of the structure and function of biological systems.

                          • Biosensors
                          • Multi-Scale Tissue Engineering
                          • Nanomedicine
                          • Bio-Micro/Nanotechnology
                          Bio-Micro and Nanotechnology

                          Bio-Micro and Nanotechnology

                          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                          Synthetic Bioengineering

                          Synthetic Bioengineering

                          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                          Molecular, Cellular and Tissue Engineering

                          Molecular, Cellular and Tissue Engineering

                          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                          Computational and Systems Biology

                          Computational and Systems Biology

                          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                          Research and BME Education

                          Research and BME Education

                          • Bio-Micro and Nanotechnology
                        • Assistant Professor
                          • Bioengineering
                          • Materials Science and Engineering
                          • Micro and Nanotechnology Laboratory
                          Research Areas
                          Bioimaging at Multi-Scale

                          Bioimaging at Multi-Scale

                          Developing technologies for quantitative imaging of the structure and function of biological systems.

                          • Biosensors
                          • Multi-Scale Tissue Engineering
                          • Nanomedicine
                          • Bio-Micro/Nanotechnology
                          Bio-Micro and Nanotechnology

                          Bio-Micro and Nanotechnology

                          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                          Synthetic Bioengineering

                          Synthetic Bioengineering

                          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                          Molecular, Cellular and Tissue Engineering

                          Molecular, Cellular and Tissue Engineering

                          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                          Computational and Systems Biology

                          Computational and Systems Biology

                          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                          Research and BME Education

                          Research and BME Education

                          • Bioimaging at Multi-Scale
                        • Founder Professor
                          • Bioengineering
                          • Carl R. Woese Institute for Genomic Biology
                          • NIH BD2K
                          • NSF Physics of the Living Cell
                          • Physics
                          Research Areas
                          Bioimaging at Multi-Scale

                          Bioimaging at Multi-Scale

                          Developing technologies for quantitative imaging of the structure and function of biological systems.

                          • Biosensors
                          • Multi-Scale Tissue Engineering
                          • Nanomedicine
                          • Bio-Micro/Nanotechnology
                          Bio-Micro and Nanotechnology

                          Bio-Micro and Nanotechnology

                          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                          Synthetic Bioengineering

                          Synthetic Bioengineering

                          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                          Molecular, Cellular and Tissue Engineering

                          Molecular, Cellular and Tissue Engineering

                          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                          Computational and Systems Biology

                          Computational and Systems Biology

                          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                          Research and BME Education

                          Research and BME Education

                          • Computational and Systems Biology
                        • Associate Professor
                          • Beckman Institute for Advanced Science and Technology
                          • Bioengineering
                          • Electrical and Computer Engineering
                          • Neuroscience
                          Research Areas
                          Bioimaging at Multi-Scale

                          Bioimaging at Multi-Scale

                          Developing technologies for quantitative imaging of the structure and function of biological systems.

                          • Biosensors
                          • Multi-Scale Tissue Engineering
                          • Nanomedicine
                          • Bio-Micro/Nanotechnology
                          Bio-Micro and Nanotechnology

                          Bio-Micro and Nanotechnology

                          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                          Synthetic Bioengineering

                          Synthetic Bioengineering

                          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                          Molecular, Cellular and Tissue Engineering

                          Molecular, Cellular and Tissue Engineering

                          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                          Computational and Systems Biology

                          Computational and Systems Biology

                          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                          Research and BME Education

                          Research and BME Education

                          • Bioimaging at Multi-Scale
                        • Professor
                          • Chemistry
                          Research Areas
                          Bioimaging at Multi-Scale

                          Bioimaging at Multi-Scale

                          Developing technologies for quantitative imaging of the structure and function of biological systems.

                          • Biosensors
                          • Multi-Scale Tissue Engineering
                          • Nanomedicine
                          • Bio-Micro/Nanotechnology
                          Bio-Micro and Nanotechnology

                          Bio-Micro and Nanotechnology

                          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                          Synthetic Bioengineering

                          Synthetic Bioengineering

                          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                          Molecular, Cellular and Tissue Engineering

                          Molecular, Cellular and Tissue Engineering

                          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                          Computational and Systems Biology

                          Computational and Systems Biology

                          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                          Research and BME Education

                          Research and BME Education

                          • Molecular, Cellular and Tissue Engineering
                        • Professor
                          • Pharmacology
                          Research Areas
                          Bioimaging at Multi-Scale

                          Bioimaging at Multi-Scale

                          Developing technologies for quantitative imaging of the structure and function of biological systems.

                          • Biosensors
                          • Multi-Scale Tissue Engineering
                          • Nanomedicine
                          • Bio-Micro/Nanotechnology
                          Bio-Micro and Nanotechnology

                          Bio-Micro and Nanotechnology

                          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                          Synthetic Bioengineering

                          Synthetic Bioengineering

                          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                          Molecular, Cellular and Tissue Engineering

                          Molecular, Cellular and Tissue Engineering

                          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                          Computational and Systems Biology

                          Computational and Systems Biology

                          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                          Research and BME Education

                          Research and BME Education

                          • Computational and Systems Biology
                        • Associate Professor
                          • Mechanical Science and Engineering
                          Research Areas
                          Bioimaging at Multi-Scale

                          Bioimaging at Multi-Scale

                          Developing technologies for quantitative imaging of the structure and function of biological systems.

                          • Biosensors
                          • Multi-Scale Tissue Engineering
                          • Nanomedicine
                          • Bio-Micro/Nanotechnology
                          Bio-Micro and Nanotechnology

                          Bio-Micro and Nanotechnology

                          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                          Synthetic Bioengineering

                          Synthetic Bioengineering

                          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                          Molecular, Cellular and Tissue Engineering

                          Molecular, Cellular and Tissue Engineering

                          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                          Computational and Systems Biology

                          Computational and Systems Biology

                          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                          Research and BME Education

                          Research and BME Education

                          • Bioimaging at Multi-Scale
                        • Assistant Professor
                          • Bioengineering
                          • Carl R. Woese Institute for Genomic Biology
                          Research Areas
                          Bioimaging at Multi-Scale

                          Bioimaging at Multi-Scale

                          Developing technologies for quantitative imaging of the structure and function of biological systems.

                          • Biosensors
                          • Multi-Scale Tissue Engineering
                          • Nanomedicine
                          • Bio-Micro/Nanotechnology
                          Bio-Micro and Nanotechnology

                          Bio-Micro and Nanotechnology

                          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                          Synthetic Bioengineering

                          Synthetic Bioengineering

                          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                          Molecular, Cellular and Tissue Engineering

                          Molecular, Cellular and Tissue Engineering

                          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                          Computational and Systems Biology

                          Computational and Systems Biology

                          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                          Research and BME Education

                          Research and BME Education

                          • Molecular, Cellular and Tissue Engineering
                        • Professor
                          • Chemistry
                          Research Areas
                          Bioimaging at Multi-Scale

                          Bioimaging at Multi-Scale

                          Developing technologies for quantitative imaging of the structure and function of biological systems.

                          • Biosensors
                          • Multi-Scale Tissue Engineering
                          • Nanomedicine
                          • Bio-Micro/Nanotechnology
                          Bio-Micro and Nanotechnology

                          Bio-Micro and Nanotechnology

                          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                          Synthetic Bioengineering

                          Synthetic Bioengineering

                          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                          Molecular, Cellular and Tissue Engineering

                          Molecular, Cellular and Tissue Engineering

                          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                          Computational and Systems Biology

                          Computational and Systems Biology

                          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                          Research and BME Education

                          Research and BME Education

                          • Synthetic Bioengineering
                        • Senior Associate Consultant
                          • Mayo Clinic
                          Research Areas
                          Bioimaging at Multi-Scale

                          Bioimaging at Multi-Scale

                          Developing technologies for quantitative imaging of the structure and function of biological systems.

                          • Biosensors
                          • Multi-Scale Tissue Engineering
                          • Nanomedicine
                          • Bio-Micro/Nanotechnology
                          Bio-Micro and Nanotechnology

                          Bio-Micro and Nanotechnology

                          Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                          Synthetic Bioengineering

                          Synthetic Bioengineering

                          Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                          Molecular, Cellular and Tissue Engineering

                          Molecular, Cellular and Tissue Engineering

                          Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                          Computational and Systems Biology

                          Computational and Systems Biology

                          Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                          Research and BME Education

                          Research and BME Education

                          • Founder Professor
                            • Beckman Institute for Advanced Science and Technology
                            • Bioengineering
                            • Electrical and Computer Engineering
                            • Materials Science and Engineering
                            • Micro and Nanotechnology Laboratory
                            Research Areas
                            Bioimaging at Multi-Scale

                            Bioimaging at Multi-Scale

                            Developing technologies for quantitative imaging of the structure and function of biological systems.

                            • Biosensors
                            • Multi-Scale Tissue Engineering
                            • Nanomedicine
                            • Bio-Micro/Nanotechnology
                            Bio-Micro and Nanotechnology

                            Bio-Micro and Nanotechnology

                            Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                            Synthetic Bioengineering

                            Synthetic Bioengineering

                            Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                            Molecular, Cellular and Tissue Engineering

                            Molecular, Cellular and Tissue Engineering

                            Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                            Computational and Systems Biology

                            Computational and Systems Biology

                            Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                            Research and BME Education

                            Research and BME Education

                            • Bio-Micro and Nanotechnology
                          • Chief Medical Officer
                            • Jump Trading Simulation & Education Center
                            Research Areas
                            Bioimaging at Multi-Scale

                            Bioimaging at Multi-Scale

                            Developing technologies for quantitative imaging of the structure and function of biological systems.

                            • Biosensors
                            • Multi-Scale Tissue Engineering
                            • Nanomedicine
                            • Bio-Micro/Nanotechnology
                            Bio-Micro and Nanotechnology

                            Bio-Micro and Nanotechnology

                            Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                            Synthetic Bioengineering

                            Synthetic Bioengineering

                            Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                            Molecular, Cellular and Tissue Engineering

                            Molecular, Cellular and Tissue Engineering

                            Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                            Computational and Systems Biology

                            Computational and Systems Biology

                            Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                            Research and BME Education

                            Research and BME Education

                            • Assistant Professor
                              • Mechanical Science and Engineering
                              Research Areas
                              Bioimaging at Multi-Scale

                              Bioimaging at Multi-Scale

                              Developing technologies for quantitative imaging of the structure and function of biological systems.

                              • Biosensors
                              • Multi-Scale Tissue Engineering
                              • Nanomedicine
                              • Bio-Micro/Nanotechnology
                              Bio-Micro and Nanotechnology

                              Bio-Micro and Nanotechnology

                              Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                              Synthetic Bioengineering

                              Synthetic Bioengineering

                              Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                              Molecular, Cellular and Tissue Engineering

                              Molecular, Cellular and Tissue Engineering

                              Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                              Computational and Systems Biology

                              Computational and Systems Biology

                              Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                              Research and BME Education

                              Research and BME Education

                              • Molecular, Cellular and Tissue Engineering
                            • Associate Professor
                              • Psychology
                              Research Areas
                              Bioimaging at Multi-Scale

                              Bioimaging at Multi-Scale

                              Developing technologies for quantitative imaging of the structure and function of biological systems.

                              • Biosensors
                              • Multi-Scale Tissue Engineering
                              • Nanomedicine
                              • Bio-Micro/Nanotechnology
                              Bio-Micro and Nanotechnology

                              Bio-Micro and Nanotechnology

                              Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                              Synthetic Bioengineering

                              Synthetic Bioengineering

                              Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                              Molecular, Cellular and Tissue Engineering

                              Molecular, Cellular and Tissue Engineering

                              Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                              Computational and Systems Biology

                              Computational and Systems Biology

                              Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                              Research and BME Education

                              Research and BME Education

                              • Bioimaging at Multi-Scale
                            • Professor
                              • Mechanical Science and Engineering
                              Research Areas
                              Bioimaging at Multi-Scale

                              Bioimaging at Multi-Scale

                              Developing technologies for quantitative imaging of the structure and function of biological systems.

                              • Biosensors
                              • Multi-Scale Tissue Engineering
                              • Nanomedicine
                              • Bio-Micro/Nanotechnology
                              Bio-Micro and Nanotechnology

                              Bio-Micro and Nanotechnology

                              Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                              Synthetic Bioengineering

                              Synthetic Bioengineering

                              Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                              Molecular, Cellular and Tissue Engineering

                              Molecular, Cellular and Tissue Engineering

                              Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                              Computational and Systems Biology

                              Computational and Systems Biology

                              Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                              Research and BME Education

                              Research and BME Education

                              • Molecular, Cellular and Tissue Engineering
                            • Founder Professor
                              • Bioengineering
                              • Carl R. Woese Institute for Genomic Biology
                              • Computer Science
                              Research Areas
                              Bioimaging at Multi-Scale

                              Bioimaging at Multi-Scale

                              Developing technologies for quantitative imaging of the structure and function of biological systems.

                              • Biosensors
                              • Multi-Scale Tissue Engineering
                              • Nanomedicine
                              • Bio-Micro/Nanotechnology
                              Bio-Micro and Nanotechnology

                              Bio-Micro and Nanotechnology

                              Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                              Synthetic Bioengineering

                              Synthetic Bioengineering

                              Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                              Molecular, Cellular and Tissue Engineering

                              Molecular, Cellular and Tissue Engineering

                              Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                              Computational and Systems Biology

                              Computational and Systems Biology

                              Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                              Research and BME Education

                              Research and BME Education

                              • Professor Emeritus
                                  Research Areas
                                  Bioimaging at Multi-Scale

                                  Bioimaging at Multi-Scale

                                  Developing technologies for quantitative imaging of the structure and function of biological systems.

                                  • Biosensors
                                  • Multi-Scale Tissue Engineering
                                  • Nanomedicine
                                  • Bio-Micro/Nanotechnology
                                  Bio-Micro and Nanotechnology

                                  Bio-Micro and Nanotechnology

                                  Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                                  Synthetic Bioengineering

                                  Synthetic Bioengineering

                                  Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                                  Molecular, Cellular and Tissue Engineering

                                  Molecular, Cellular and Tissue Engineering

                                  Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                                  Computational and Systems Biology

                                  Computational and Systems Biology

                                  Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                                  Research and BME Education

                                  Research and BME Education

                                  • Professor
                                    • Animal Sciences
                                    Research Areas
                                    Bioimaging at Multi-Scale

                                    Bioimaging at Multi-Scale

                                    Developing technologies for quantitative imaging of the structure and function of biological systems.

                                    • Biosensors
                                    • Multi-Scale Tissue Engineering
                                    • Nanomedicine
                                    • Bio-Micro/Nanotechnology
                                    Bio-Micro and Nanotechnology

                                    Bio-Micro and Nanotechnology

                                    Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                                    Synthetic Bioengineering

                                    Synthetic Bioengineering

                                    Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                                    Molecular, Cellular and Tissue Engineering

                                    Molecular, Cellular and Tissue Engineering

                                    Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                                    Computational and Systems Biology

                                    Computational and Systems Biology

                                    Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                                    Research and BME Education

                                    Research and BME Education

                                    • Molecular, Cellular and Tissue Engineering
                                  • Professor
                                    • Agricultural and Biological Engineering
                                    Research Areas
                                    Bioimaging at Multi-Scale

                                    Bioimaging at Multi-Scale

                                    Developing technologies for quantitative imaging of the structure and function of biological systems.

                                    • Biosensors
                                    • Multi-Scale Tissue Engineering
                                    • Nanomedicine
                                    • Bio-Micro/Nanotechnology
                                    Bio-Micro and Nanotechnology

                                    Bio-Micro and Nanotechnology

                                    Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                                    Synthetic Bioengineering

                                    Synthetic Bioengineering

                                    Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                                    Molecular, Cellular and Tissue Engineering

                                    Molecular, Cellular and Tissue Engineering

                                    Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                                    Computational and Systems Biology

                                    Computational and Systems Biology

                                    Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                                    Research and BME Education

                                    Research and BME Education

                                    • Bio-Micro and Nanotechnology
                                  • Professor
                                    • Chemical and Biomolecular Engineering
                                    Research Areas
                                    Bioimaging at Multi-Scale

                                    Bioimaging at Multi-Scale

                                    Developing technologies for quantitative imaging of the structure and function of biological systems.

                                    • Biosensors
                                    • Multi-Scale Tissue Engineering
                                    • Nanomedicine
                                    • Bio-Micro/Nanotechnology
                                    Bio-Micro and Nanotechnology

                                    Bio-Micro and Nanotechnology

                                    Developing molecular scale materials to Lab-on-Chip devices to sense, manipulate, and re-engineer molecular and cellular structure and function.

                                    Synthetic Bioengineering

                                    Synthetic Bioengineering

                                    Forward engineering and design using biological components at all scales, both in-vitro and in-vivo, with applications in human health, and sustainability.

                                    Molecular, Cellular and Tissue Engineering

                                    Molecular, Cellular and Tissue Engineering

                                    Drug delivery, stem cell engineering, development of biomaterials, and approaches for regenerative medicine aimed at improving the understanding and treatment of diseases.

                                    Computational and Systems Biology

                                    Computational and Systems Biology

                                    Computational medicine, systems biology, and computational biophysics - utilizing high-performance computation, large-scale informatics, and control systems to very large-scale complex systems of cell networks to generate a new understanding of human health.

                                    Research and BME Education

                                    Research and BME Education

                                    • Synthetic Bioengineering

                                  Bioengineering

                                  University of Illinois at Urbana-Champaign
                                  1270 Digital Computer Laboratory, MC-278
                                  1304 W. Springfield Avenue
                                  Urbana, IL 61801, USA

                                  P: (217) 333-1867 | E: bioengineering@illinois.edu

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