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Flexible triboelectric generator 7 systems for personal electronics, environmental monitoring, medical science and even possibly large-scale power. Acknowledgments This research was supported by DARPA and BES DOE. The authors are grateful to B.C. Cheng, W.Z. Wu, Y. Yang, Y.F. Hu and Y. Zhang for the helpful discussion. We also thank S.H. Wang, Y.S. Zhou, G. Zhu and X.N. Wen for assistance in experiments. A US provisional patent has been applied based on the discovery reported here. Appendix A. Supplementary material Supplementary data associated with this article can be found in the online version at doi:10.1016/j.nanoen.2012.01.004. References [1] J.A. Paradiso, T. Starner, IEEE Pervasive Computing 4 (2005) 18. [2] S.P. Beeby, M.J. Tudor, N.M. White, Measurement Science and Technology 17 (2006) 175. [3] S.R. Anton, H.A. Sodano, Smart Materials and Structures 16 (2007) R1. [4] P.D. Mitcheson, E.M. Yeatman, G.K. Rao, A.S. Holmes, T.C. Green, Proceedings of the IEEE 96 (2009) 1457. 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Cross, Electrostatics: Principles, Problems and Applica- tions, Adam Hilger, Bristol, England, 1987. Feng-Ru Fan received his B.S. degree in Chemistry from Xiamen University, China in 2006. He is a Ph.D. candidate at College of Chemistry and Chemical Engineering, Xia- men University. From 2008 to 2011, he was as a visiting student in Zhong Lin Wang’s group at Georgia Institute of Technology. His research interests include nanogenerators and self-powered nanosystem, preparation and applications of metal-semiconductor hybrid devices, synthesis and characterization of novel nanostruc- tures with functional materials. Zhong-Qun Tian received his B.S. degree in Chemistry from Xiamen University, China in 1982. He moved to University of South- ampton in 1983 and worked on surface- enhanced Raman spectroscopic studies on electrochemical deposition and adsorption with Prof. Martin Fleischmann. After obtain- ing a Ph.D. from University of Southampton in 1987, he returned to Xiamen University. He was promoted to full professor in 1992 and is serving as the director of State Key Laboratory for Physical Chemistry of Solid Surfaces since 2003. His main research interests are surface-enhanced Raman spectroscopy, spectro-electrochemis- try and nano-electrochemistry. He has received several major grants and prestigious awards in China. He is a Member of Chinese Academy of Sciences, Fellow of the Royal Society of Chemistry, Titular Member of Division of Physical and Biophysical Chemistry of IUPAC and the Chairman of the Chinese Electrochemical Society. Zhong Lin (ZL) Wang received his Ph.D. from Arizona State University in physics. He now is the Hightower Chair in Materials Science and Engineering, Regents’ Profes- sor, Engineering Distinguished Professor and Director, Center for Nanostructure Charac- terization, at Georgia Tech. Dr. Wang has made original and innovative contributions to the synthesis, discovery, characterization and understanding of fundamental physical properties of oxide nanobelts and nanowires, as well as applications of nanowires in energy sciences, electronics, optoelectronics and biological science. His discovery and breakthroughs in developing nanogenerators established the principle and technological road map for harvesting mechanical energy from environment and biological systems for powering a personal electronics. His research on self-powered nanosystems has inspired the worldwide effort in academia and industry for studying energy for micro-nano-systems, which is now a distinct disciplinary in energy research and future sensor networks. He coined and pioneered the field of piezotronics and piezo-phototronics by introducing piezoelectric potential gated charge transport process in fabricating new electronic and optoelectronic devices. Details can be found at: http://www. nanoscience.gatech.edu. Please cite this article as: F.-R. Fan, et al., Flexible triboelectric generator, Nano Energy (2012), doi:10.1016/j.nanoen.2012.01.004PDF Image | Flexible triboelectric generator
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