Dr. Zhou received the B.S. degree in Applied Physics from Wuhan University, Wuhan, China, in 2004, and the M.S. and the PhD degrees in Micro-electronics and Solid-electronics from Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences in 2009, where her research investigated flexible neural microelectrodes. From 2010 to 2014, he worked as a postdoctoral fellow at Department of mechanical engineering, Hong Kong University Science & Technology, where he was engaged in developing droplet-based microfluidics. From 2015, he joined the State Key Laboratory of Transducer Technology, SIMIT, CAS.
National Science Foundation of China (No.61571428) : Generation technology of high-throughput micro/nano droplets and its application in digital PCR.
Shanghai Pujiang Program (No.15PJ1409800): Droplet digital ELISA chip, method and Application
Research Associate, the State Key Laboratory of Transducer Technology, SIMIT, CAS, 2015--present
Postdoctoral fellow, Hong Kong University Science & Technology, 2010-2014
Research assistant, the State Key Laboratory of Transducer Technology, SIMIT, CAS, 2009-2010
B.S., Applied Physics, 2004, Wuhan University
Ph.D., Micro-electronics and Solid-electronics, 2009, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences
1)Yu, M., Y. Hou, Zhou, H., and S. Yao, An on-demand nanofluidic concentrator, Lab on a Chip, 2015, 15(6): 1524-1532.
2)Zhou, H. and S. Yao, A facile on-demand droplet microfluidic system for lab-on-a-chip applications, Microfluidics and nanofluidics, 2014, 16(4): 667-675.
3)Zhou, H., G. Li, and S. Yao, A droplet-based pH regulator in microfluidics, Lab on a Chip, 2014, 14(11): 1917-1922.
4)Zhou, H., et al., A facile microfluidic strategy for measuring interfacial tension, Applied Physics Letters, 2013, 103(23): 234102.
5)Zhou, H. and S. Yao, Electrostatic charging and control of droplets in microfluidic devices, Lab on a Chip, 2013, 13(5): 962-969.
6)Zhou, H., et al., Fabrication of pyramid-shaped three-dimensional flexible microelectrode array for improved neural interfacing, Sensor Letters, 2009, 7(1): 102-109.
7)Zhou, H., et al., Integration of Au nanorods with flexible thin-film microelectrode arrays for improved neural interfaces, Microelectromechanical Systems, Journal of, 2009, 18(1): 88-96.
8)Zhou, H., et al., A new process for fabricating tip-shaped polymer microstructure array with patterned metallic coatings, Sensors and Actuators A: Physical, 2009, 150(2): 296-301.
