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Cardiomyocyte contractile force changes in response to chemical environments.

, , , , , , , , and . NEMS, page 225-228. IEEE, (2014)

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Nanoscale electrokinetics in self-assembled nanoparticles., , , and . ISR, page 1-3. IEEE, (2013)Controllable in-situ hydrogels membrane formation using microfluidics., , , , , and . NEMS, page 441-444. IEEE, (2011)Design and fabrication of a large-deformed smart sensorized polymer actuator., , , , and . IROS, page 908-912. IEEE, (2004)An integrated bio cell processor for single embryo cell manipulation., , , , , , and . IROS, page 242-247. IEEE, (2004)Biohybrid microsystems actuated by cardiomyocytes: Microcantilever, microrobot, and micropump., , , , , and . ICRA, page 880-885. IEEE, (2008)MEMS power generation using activation of cardiomyocytes on a PMN-PT diaphragm., , , , and . NEMS, page 680-683. IEEE, (2010)Advanced Controller Design and Implementation of a Sensorized Microgripper for Micromanipulation., , , , , , and . ICRA, page 5025-5032. IEEE, (2004)Concentration gradient generation of multiple chemicals using spatially controlled self-assembly of particles in microchannels, , , , and . Lab Chip, 12 (20): 3968-3975 (2012)Realistic computational modeling for hybrid biopolymer microcantilevers., , , , , , , and . EMBC, page 2102-2105. IEEE, (2006)Formation of hydrogel membranes in microchannels and its applications., , , , , , and . ROBIO, page 1890-1894. IEEE, (2011)