Ph.D., Nano Science and Technology, The Hong Kong University of Science and Technology, Hong Kong, 2015.
M.S., Condensed Matter Physics, Sun Yat-Sen Univerisity, China, 2011.
B.Sc., Micro-electronics, Sun Yat-Sen University, China, 2008.
Wearable and Flexible Electronics
Fluid Control in Micro/Nano-scales
Surface & Interface Science
Electromagnetism and Physical Optics
Green Energy for Global Society
Qian Zhou, Bing Ji, Fengming Hu, Ziyi Dai, Sen Ding, Hao Yang, Junwen Zhong, Yancong Qiao, Jianhua Zhou, Jianyi Luo, and Bingpu Zhou,* Magnetized Microcilia Array based Self-powered Electronic Skin for Micro-scaled 3D Morphology Recognition and High-capacity Communication, Advanced Functional Materials2022, 202208120.
Sen Ding, Mingrui Wang, Hao Yang, Fengming Hu, Ziyi Dai, Ming Lei, Qian Zhou, Dazhe Zhao, Yibo Gao, Junwen Zhong, Jianyi Luo*, and Bingpu Zhou*, Sweeping-responsive Interface Using the Intrinsic Polarity of Magnetized Micropillars for Self-Powered and High-capacity Human-machine Interaction, Nano Energy 2022, 102, 107671.
Ming Lei, Kai Feng, Sen Ding, Mingrui Wang, Ziyi Dai, Ruolin Liu, Yibo Gao, Yinning Zhou, Qingsong Xu,* and Bingpu Zhou,* Breathable and waterproof electronic skin with three-dimensional architecture for pressure and strain sensing in non-overlapping mode, ACS Nano2022, 16, 12620-12634.
Ge Chen,† Ziyi Dai,† Sen Ding, Ming Lei, Jing Lin, Shuangpeng Wang, Yinning Zhou, Hui Pan, and Bingpu Zhou,* Realization of Integrative Hierarchy by In-situ Solidification of ‘Semi-cured’ Microcilia Array in Candle Flame for Robust and Flexible Superhydrophobicity, Chemical Engineering Journal2022, 432, 134400.
Bing Ji, Qian Zhou, Bin Hu,* Junwen Zhong, Jun Zhou, and Bingpu Zhou,* Bio-inspired Hybrid Dielectric for Capacitive and Triboelectric Tactile Sensors with High Sensitivity and Ultrawide Linearity Range, Advanced Materials2021, 33, 2100859.
Ziyi Dai,† Ge Chen,† Sen Ding, Jing Lin,* Shunbo Li, Yi Xu, and Bingpu Zhou,* Facile formation of hierarchical textures for flexible, translucent, and durable superhydrophobic film, Advanced Functional Materials 2021, 31, 2008574.