MEMS at MIT MEMS@MIT
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Research Areas
Materials, Processes, and Devices for MEMS
Biological and Chemical MEMS
Actuators and Power MEMS
Sensors, Systems, and Modeling

search MEMS@MIT:

BioMEMS

  1. A Microfabricated Platform for Investigating Multicellular Organization in 3-D Microenvironments
  2. Microfluidic Hepatocyte Bioreactor
  3. Micromechanical Control of Cell-Cell Interaction
  4. A MEMS Drug Delivery Device for the Prevention of Hemorrhagic Shock
  5. Multiwell Cell Culture Plate Format with Integrated Microfluidic Perfusion System
  6. Characterization of Nanofilter Arrays for Biomolecule Separation
  7. Patterned Periodic Potential-energy Landscape for Fast Continuous-flow Biomolecule Separation
  8. Continuous-flow pI-based Sorting of Proteins and Peptides in a Microfluidic Chip Using Diffusion Potential
  9. Cell Stimulation, Lysis, and Separation in Microdevices
  10. Polymer-based Microbioreactors for High Throughput Bioprocessing
  11. Micro-fluidic Bioreactors for Studying Cell-Matrix Interactions
  12. A Nanoscanning Platform for Biological Assays
  13. Label-free Microelectronic PCR Quantification
  14. Vacuum-Packaged Suspended Microchannel Resonant Mass Sensor for Biomolecular Detection
  15. Microbial Growth in Parallel Integrated Bioreactor Arrays
  16. BioMEMS for Control of the Stem-cell Microenvironment
  17. Microfluidic/Dielectrophoretic Approaches to Selective Microorganism Concentration
  18. Microfabricated Approaches for Sorting Cells Using Complex Phenotypes
  19. A Continuous, Conductivity-Specific Micro-organism Separator
  20. Polymer Waveguides for Integrated Biosensors