YC Tai
Cited by
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Micro-electro-mechanical-systems (MEMS) and fluid flows
CM Ho, YC Tai
Annual review of fluid mechanics 30 (1), 579-612, 1998
Membrane microfilter device for selective capture, electrolysis and genomic analysis of human circulating tumor cells
S Zheng, H Lin, JQ Liu, M Balic, R Datar, RJ Cote, YC Tai
Journal of chromatography A 1162 (2), 154-161, 2007
Portable Filter-Based Microdevice for Detection and Characterization of Circulating Tumor CellsPortable Filter-Based CTC Microdevice
HK Lin, S Zheng, AJ Williams, M Balic, S Groshen, HI Scher, M Fleisher, ...
Clinical Cancer Research 16 (20), 5011-5018, 2010
Unsteady aerodynamics and flow control for flapping wing flyers
S Ho, H Nassef, N Pornsinsirirak, YC Tai, CM Ho
Progress in aerospace sciences 39 (8), 635-681, 2003
3D microfilter device for viable circulating tumor cell (CTC) enrichment from blood
S Zheng, HK Lin, B Lu, A Williams, R Datar, RJ Cote, YC Tai
Biomedical microdevices 13, 203-213, 2011
IC-processed electrostatic micromotors
LS Fan, YC Tai, RS Muller
Sensors and actuators 20 (1-2), 41-47, 1989
Integrated movable micromechanical structures for sensors and actuators
LS Fan, YC Tai, RS Muller
IEEE Transactions on Electron Devices 35 (6), 724-730, 1988
The neurochip: a new multielectrode device for stimulating and recording from cultured neurons
MP Maher, J Pine, J Wright, YC Tai
Journal of neuroscience methods 87 (1), 45-56, 1999
Non-linear pressure distribution in uniform microchannels
KC Pong, CM Ho, J Liu, YC Tai
ASME-Publications-Fed 197, 51-51, 1994
MEMS and its applications for flow control
CM Ho, YC Tai
A micromachined chip-based electrospray source for mass spectrometry
L Licklider, XQ Wang, A Desai, YC Tai, TD Lee
Analytical Chemistry 72 (2), 367-375, 2000
Flexible parylene-based multielectrode array technology for high-density neural stimulation and recording
DC Rodger, AJ Fong, W Li, H Ameri, AK Ahuja, C Gutierrez, I Lavrov, ...
Sensors and Actuators B: chemical 132 (2), 449-460, 2008
IC-processed electrostatic micro-motors
LS Fan, YC Tai, RS Muller
IEEE, 1988
A micro cell lysis device
SW Lee, YC Tai
Sensors and Actuators A: Physical 73 (1-2), 74-79, 1999
Microfabricated implantable parylene-based wireless passive intraocular pressure sensors
PJ Chen, DC Rodger, S Saati, MS Humayun, YC Tai
Journal of Microelectromechanical Systems 17 (6), 1342-1351, 2008
A micromachined flow shear-stress sensor based on thermal transfer principles
C Liu, JB Huang, Z Zhu, F Jiang, S Tung, YC Tai, CM Ho
Journal of Microelectromechanical Systems 8 (1), 90-99, 1999
MEMS flow sensors for nano-fluidic applications
S Wu, Q Lin, Y Yuen, YC Tai
Sensors and Actuators A: Physical 89 (1-2), 152-158, 2001
Wireless intraocular pressure sensing using microfabricated minimally invasive flexible-coiled LC sensor implant
PJ Chen, S Saati, R Varma, MS Humayun, YC Tai
Journal of Microelectromechanical Systems 19 (4), 721-734, 2010
Titanium-alloy MEMS wing technology for a micro aerial vehicle application
TN Pornsin-Sirirak, YC Tai, H Nassef, CM Ho
Sensors and Actuators A: Physical 89 (1-2), 95-103, 2001
An electrochemical intraocular drug delivery device
PY Li, J Shih, R Lo, S Saati, R Agrawal, MS Humayun, YC Tai, E Meng
Sensors and Actuators A: Physical 143 (1), 41-48, 2008
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