Kim:Research: Difference between revisions
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Here is a summary of our research. | Here is a summary of our research. | ||
Research Interests | Research Interests <br> | ||
• Cell and Tissue Engineering in Microsystems: Micro- and nanoengineering of the cell microenvironment designed to facilitate advances in the biomedical sciences; particularly, microscale control of cell positioning, soluble and substratum-bound ligands, microscale stem/progenitor cell niche engineering, and microscale cardiovascular tissue engineering. | • Cell and Tissue Engineering in Microsystems: Micro- and nanoengineering of the cell microenvironment designed to facilitate advances in the biomedical sciences; particularly, microscale control of cell positioning, soluble and substratum-bound ligands, microscale stem/progenitor cell niche engineering, and microscale cardiovascular tissue engineering. <br> | ||
• Mechanobiology and Mechanotransduction: Signal transduction by engineered extracellular matrices, molecular in-chip live-cell imaging, cell and tissue morphodynamics, gradient sensing and directed cell migration, biophysical regulation of stem cell fates, cell mechanics. | • Mechanobiology and Mechanotransduction: Signal transduction by engineered extracellular matrices, molecular in-chip live-cell imaging, cell and tissue morphodynamics, gradient sensing and directed cell migration, biophysical regulation of stem cell fates, cell mechanics. <br> | ||
• Biomedical Micro/Nanotechnology: Fabrication of biomimetic micro/nanoscale systems and structures, nanoscale engineering in cell biology and therapy, micro/nanoengineered cell-biomaterial interaction, micro/nanoscale force measurements on biology, microrobotics for intelligent cell micromanipulation. | • Biomedical Micro/Nanotechnology: Fabrication of biomimetic micro/nanoscale systems and structures, nanoscale engineering in cell biology and therapy, micro/nanoengineered cell-biomaterial interaction, micro/nanoscale force measurements on biology, microrobotics for intelligent cell micromanipulation. <br> | ||
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Revision as of 17:57, 6 September 2010
Here is a summary of our research.
Research Interests
• Cell and Tissue Engineering in Microsystems: Micro- and nanoengineering of the cell microenvironment designed to facilitate advances in the biomedical sciences; particularly, microscale control of cell positioning, soluble and substratum-bound ligands, microscale stem/progenitor cell niche engineering, and microscale cardiovascular tissue engineering.
• Mechanobiology and Mechanotransduction: Signal transduction by engineered extracellular matrices, molecular in-chip live-cell imaging, cell and tissue morphodynamics, gradient sensing and directed cell migration, biophysical regulation of stem cell fates, cell mechanics.
• Biomedical Micro/Nanotechnology: Fabrication of biomimetic micro/nanoscale systems and structures, nanoscale engineering in cell biology and therapy, micro/nanoengineered cell-biomaterial interaction, micro/nanoscale force measurements on biology, microrobotics for intelligent cell micromanipulation.
