Publications Papers

2015
Cheng XL, Meng B, Han M, Chen H, Zhang H. A high-efficiency transparent electrification-based generator for harvesting droplet energy. Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), 2015 Transducers-2015 18th International Conference on. 2015:62-65.
Han M, Yu B, Cheng XL, Meng B, Zhang H. A super-flexible and lightweight membrane for energy harvesting. Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), 2015 Transducers-2015 18th International Conference on. 2015:55-58.
Cheng XL, Meng B, Han M, Shi M, Zhang H. Floor-based large-area triboelectric generator for active security monitoring. Consumer Electronics (ICCE), 2015 IEEE International Conference on. 2015:581-582.
Zhang X-S, Su Z-M, Han M-D, Meng B, Zhu F-Y, Zhang H-X. Fabrication and characterization of the functional parylene-C film with micro/nano hierarchical structures. Microelectronic Engineering. 2015;141:72-80.
Qiu G, Liu W, Han M, Cheng XL, Meng B, Smitha AS, Zhao JM, Zhang H. A cubic triboelectric generator as a self-powered orientation sensor. Science China Technological Sciences. 2015;58(5):842-847.
Zhu FY, Zhang X, Zhang H. Formation mechanism of multi-functional black silicon based on optimized deep reactive ion etching technique with SF 6/C 4 F 8. Science China Technological Sciences. 2015;58(2):381-389.
Han M, Yu B, Qiu G, Chen H, Su Z, Shi M, Meng B, Cheng XL, Zhang H. Electrification based devices with encapsulated liquid for energy harvesting, multifunctional sensing, and self-powered visualized detection. Journal of Materials Chemistry A. 2015;3(14):7382-7388.
Zhang X-S, Han M-D, Meng B, Zhang H-X. High performance triboelectric nanogenerators based on large-scale mass-fabrication technologies. Nano Energy. 2015;11:304-322.
Cheng XL, Meng B, Zhang X, Han M, Su Z, Zhang H. Wearable electrode-free triboelectric generator for harvesting biomechanical energy. Nano Energy. 2015;12:19-25.
Zhang H, Zhang X-S, Cheng XL, Liu Y, Han M, Xue X, Wang S, Yang F, Smitha AS, Zhang H. A flexible and implantable piezoelectric generator harvesting energy from the pulsation of ascending aorta: in vitro and in vivo studies. Nano Energy. 2015;12:296-304.
Chandrashekar BN, Deng B, Smitha AS, Chen Y, Tan C, Zhang H, Peng H, Liu Z. Roll‐to‐roll green transfer of CVD graphene onto plastic for a transparent and flexible triboelectric nanogenerator. Advanced Materials. 2015;27(35):5210-5216.
2014
Liu W, Han M, Meng B, Sun X, Huang XL, Zhang H. Low frequency wide bandwidth MEMS energy harvester based on spiral-shaped PVDF cantilever. Science China Technological Sciences. 2014;57(6):1068-1072.
Han M, Li Z, Sun X, Zhang H. Analysis of an in-plane electromagnetic energy harvester with integrated magnet array. Sensors and Actuators A: Physical. 2014;219:38-46.
Han M, Qiu G, Liu W, Meng B, Zhang X-S, Zhang H. Note: A cubic electromagnetic harvester that convert vibration energy from all directions. Review of Scientific Instruments. 2014;85(7):076109.
Sun X, Zheng Y, Peng X, Li X, Zhang H. Parylene-based 3D high performance folded multilayer inductors for wireless power transmission in implanted applications. Sensors and Actuators A: Physical. 2014;208:141-151.
Zhang X-S, Meng B, Zhu F-Y, Tang W, Zhang H-X. Switchable wetting and flexible SiC thin film with nanostructures for microfluidic surface-enhanced Raman scattering sensors. Sensors and Actuators A: Physical. 2014;208:166-173.
Sun X, Peng X, Zheng Y, Li X, Zhang H. A 3-D Stacked high-Q PI-based MEMS inductor for wireless power transmission system in bio-implanted applications. J. Microelectromech. Syst. 2014;23:888-898.
Han M, Yuan Q, Sun X, Zhang H. Design and fabrication of integrated magnetic MEMS energy harvester for low frequency applications. Journal of Microelectromechanical Systems. 2014;23(1):204-212.
Meng B, Cheng XL, Zhang X, Han M, Liu W, Zhang H. Single-friction-surface triboelectric generator with human body conduit. Applied Physics Letters. 2014;104(10):103904.
Zhu F-Y, Wang Q-Q, Zhang X-S, Hu W, Zhao X, Zhang H-X. 3D nanostructure reconstruction based on the SEM imaging principle, and applications. Nanotechnology. 2014;25(18):185705.

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