SONG Xuefeng
Research Associate Professor

SONG Xuefeng
Research Associate Professor
Innovation Center for Key Scientific Instruments
E-mail: songxf@sustech.edu.cn


Research Fields
Carbon nano- materials and devices, MEMS sensors and their applications, scientific instruments


Working Experience
· 2009-2012, TKK, Finland, Postdoc
· 2012-2015, O.V.Lounasmaa laboratory, PI of Finnish Academic project
· 2016-2017, Applied Physics department, Aalto University, Finland, Researcher
· 2017-Now, SUSTech, Associate Professor


· 1999-2003, Physics Department of Peking University, Bachelor Degree
· 2003-2009, Peking University, PhD in Condensed Matter Physics


Current Research Projects
· Study of MEMS switch devices based on ultra-thin graphitic material
· Graphene MEMS pressure sensor for Air Data System
· Wearable Electro-Cardiac and Cardiac sound signal sensors and their application
· Water quality monitoring system based on UV-Vis Spectrometer


Past Research Projects
· Approaching the thermal motion and quantum limit with graphene nano-mechanical resonators
· Graphene MEMS mixer for TKK-Nokia co-funded RF front end project
· Study on suspended graphene for RODIN project in ERC-FP7 framework
· Quantum graphene mechanical resonator for EU Graphene Flagship
· European Research Council (ERC) project (iQUOEMS)


· Display device and display method (Authorized) Chinese Patent No. CN101414425A, US patent No. US 20110051091 A1, PCT patent No. PCT/CN2008/001733 (2007)
· A method to categorize, store, and assemble carbon nanotubes (Authorized) Chinese Patent No. CN101704508A (2009)
· Tunneling accelerometer using graphene cantilever, (patent pending) US Patent No. US62/394256 (2016)


Key Publications
· Xuefeng Song, Mika Oksanen, Jian Li, Pertti J. Hakonen, and Mika A. Sillanpää, Graphene optomechanics realized at microwave frequencies, Physical Review Letters 113, 027404 (2014)
· Maria Berdova, Sung Un Cho, Juha-Matti Pirkkalainen, Jaakko Sulkko, Xuefeng Song, Pertti J Hakonen and Mika A Sillanpää, Micromanipulation transfer of membrane resonators for circuit optomechanics, Journal of Micromechanics and Microengineering, 23, 125024 (2013)
· Xuefeng Song, Mika Oksanen, Mika A. Sillanpää, H. G. Craighead, J. M. Parpia, and Pertti J. Hakonen, Stamp transferred suspended graphene mechanical resonators for radio-frequency electrical readout, Nano Letters 12, 198–202 (2012)
· Pirjo Pasanen, Martti Voutilainen, Meri Helle, Xuefeng Song, and Pertti J Hakonen, Graphene for future electronics, Physica Scripta T146, 014025 (2012)
· Qing Zhao, Jingyun Gao, Rui Zhu, Tuocheng Cai, Sheng Wang, Xuefeng Song, Zhimin Liao, Xihong Chen, and Dapeng Yu, Ultrahigh field emission current density from nitrogen-implanted ZnO nanowires, Nanotechnology 21, 095701 (2010)
· Xuefeng Song, Jingyun Gao, Qiang Fu, Qing Zhao, Jun Xu and Dapeng Yu, Novel planar field emission of ultra-thin individual carbon nanotubes, Nanotechnology 40, 405208 (2009)
· Xuefeng Song, Xiaobing Han, Qiang Fu, Jun Xu, Ning Wang and Da-Peng Yu, Electricaltransport measurements of the side-contacts and embedded-end-contacts of platinum leads on the same single-walled carbon nanotube, Nanotechnology 20, 195202 (2009)
· Xiaobing Han, Liangzhi Kou, Xiaoli Lang, Jianbai Xia, Ning Wang, Rui Qin, Jing Lu, Jun Xu, Zhimin Liao, Xinzheng Zhang, Xudong Shan, Xuefeng Song, Jingyun Gao, Wanlin Guo, and Dapeng Yu, Electronic and Mechanical Coupling in Bent ZnO Nanowires, Advanced Materials 21, 4937 (2009)
· Xiaobing Han, Guangyin Jing, Xinzheng Zhang, Renmin Ma, Xuefeng Song, Jun Xu, Zhimin Liao, Ning Wang, and Dapeng Yu, Bending-induced conductance increase in individual semiconductor nanowires and nanobelts, Nano Research 2, 553 (2009)
· Q. Zhao, X. Y. Xu, X. F. Song, D. P. Yu, C. P. Li and L. Guo, Enhanced field emission from ZnO nanorods via thermal annealing in oxygen, Applied Physics Letters 88, 033102 (2006)