Biological and Chemical MEMS

1. A Versatile MEMS Quadrupole Platform for Portable Mass Spectrometry Using the First and Second Stability Regions
2. First Principles Optimization of Mass-producible Microscaled Linear Quadrupoles for Operation In Higher Stability Regions
3. A Single-gated Open Architecture Carbon Nanotube Array for Efficient Field Ionization
4. Carbon Nanotubes for Electrospray Nanofluidic Applications
5. Micromechanical Substrates for Reconfigurable Cell Culture
6. Aligned Multimask Patterning of Biomolecules and Cells
7. Collective Hydrodynamics and Kinetics of Sickle Cell Vaso-occlusion and Rescue in a Microfluidic Device
8. An Implantable MEMS Drug-delivery Device
9. Barcoded Microparticles for Multiplexed Detection
10. Single-molecule DNA Mapping in a Fluidic Device
11. DNA Dynamics in Nanofluidic Devices
12. A Patterned Anisotropic Nanofilter Array for Continuous-flow Separation of DNA and Proteins
13. Cell Stimulation, Lysis, and Separation in Microdevices
14. Microreactors for Synthesis of Quantum Dots
15. Microfluidic Synthesis and Surface Engineering of Colloidal Nanoparticles
16. Organic Synthesis in Microreactor Systems
17. An Integrated Microelectronic Device for Label-free Nucleic Acid Amplification and Detection
18. Monitoring of Heparin and its Low Molecular Weight Analogs by Silicon Field Effect
19. Weighing of Biomolecules, Single Cells, and Single Nanoparticles in Fluid
20. Integrated System for Cancer Biomarker Detection
21. Nanowire- and Microsphere-templated Gas Sensors
22. BioMEMS for Control of the Stem Cell Microenvironment
23. Microfabricated Devices for Sorting Cells Using Complex Phenotypes
24. Combined Microfluidic/Dielectrophoretic Microorganism Concentrators
25. DEP Cell-patterning for Controlling Cellular Organization
26. Iso-dielectric Cell Separation
27. Microfluidic Systems for the Study of Vascular Networks
28. High-throughput, Continuous-flow Separation of Biomolecules in a High-aspect-ratio Nanofilter Array