教育经历:1994年山西大学物理系,获得理论物理专业本科学位;1997 年山西大学光电研究所,获得量子光学及激光技术专业硕士学位;2003 年在希腊雅典科技大学物理系,获得半导体材料专业博士学位。回国后在中北大学从事研究工作,2005年被聘为仪器科学与动态测试教育部重点实验室副主任,2018年聘为仪器科学与动态测试教育部重点实验室主任。英国牛津大学和美国麻省理工学院高级访问学者,兼任中北大学仪器与电子学院博士生导师、教授。
研究方向:新型微米纳米器件(MEMS/NEMS)、微纳测试技术、固体光谱学与微光学气体传感器
研究成果:长期从事微纳传感器与测试技术研究,主持基金委仪器专项、863等项目,国家科技部 863项目首席科学家和国家基金委仪器专项项目负责人。获国家技术发明二等奖1项(排名第3)、省技术发明奖一等奖1项(排名第1)。出版专著1部,在APL等期刊上发表SCI论文140多篇,他引300多次,授权国家发明专利50余项。先后入选国家杰出青年、三晋学者、国家百千万人才工程、教育部新世纪优秀人才支持计划等。研制的高灵敏、小体积、低成本仿生矢量水听器是我国最早实现工程化应用的微纳矢量水声传感器件,研究成果成功应用于海洋、医疗等领域 ,拓展了微纳技术在水声传感领域的应用。另外还研制出微集成红外气体传感器、MEMS步进衰减器、微纳能源采集器、无线无源微传感监测系统。
招生方向:新型微米纳米器件(MEMS/NEMS)、微纳测试技术、固体光谱学与微光学气体传感器
Dr. Chenyang Xue
Professor, Cheung Kong Scholar Chair Professor, National Science Foundation for Distinguished Young Scholars of China, Executive Associate Director of Key Laboratory of Instrumentation Science & Dynamic Measurement Ministry of Education, North University of China, TaiYuan, 030051, P.R.China
Tel: 86-0351-3921756 Fax: 86-0351-3922131
E-mail:xuechenyang@nuc.edu.cn
Curriculum Vitae
Name: Xue Chenyang
Date and Place of Birth: Nov.13, 1971, Shanxi, P.R. China
Education and Positions Held:
1990.9—1994.7 Undergraduate student majored in theoretical physics at physics department, Shanxi University, P.R.China.
Bachelor degree received in 1994.
1994.9—1997.7 Master graduate student, majored in Opto-electronics at Inst. of Opto-electronics Shanxi University, P.R.China.
Master degree received in 1997.
1997.9—1999.9 Engineer in Inst. of Communication, Shanxi province, P.R.China.
1999.9—2003.9 Ph.D. student majored in semiconductor physics and device at National Technical University of Athens, Greece,
Ph.D. degree received in 2003.
2003.9— North university of China, Shanxi province, P.R.China.
Researching topics:
The main researching tasks include:
(1) Micro-energy harvesting and Wireless passive sensing technology
Converting the mechanical energy from ambient environment into electric energy for achieving of self-powered system, which to overcome the technical bottleneck of the limited lifespan of Li-ion batteries.
(2) Turbulent mixing on the full depth section of the ocean
19A kind of matric turbulence observing instrument on the full depth section of the ocean based on MEMS technology.
(3) MEMS hydrophone
The MEMS hydrophone based on the principle of silicon piezoresistive effect have the features of small volume, low-cost, good low frequency response, rigid mounting, single chip integrated two-dimensional directivity and so on. The characteristic of high sensitivity, wide working band and “8” shape dipole directivity gives the MEMS bionic hydrophone a lot of attention.
Short Time Appointment
1. 9th-21st, September 2001. Participating scientist, “NATO Advanced Study Institute: Photovoltaic and Photoactive Materials, Properties, Technology and Applications” Sozopol, Bulgaria.
2. July-September 2002. Visiting researcher, Institute of Solid State Physics, Technical University of Berlin, Germany.
3. Aug.2008—Feb.2009,Visiting researcher, Department of Engineering Science, University of Oxford, UK
4. May.2011—Nov.2011, Visiting researcher, Department of Electronic Engineering, Massachusetts Institute of Technology, USA
List of The Major Publications (has published more than 140 SCI papers in APL and other journals):
(1) As corresponding author
1. Tian ZM, He J, Chen X, Zhang ZX, Wen T, Zhai C, Han JQ, Mu JL, Hou XJ, Chou XJ, Xue, CY. Performance-Boosted Triboelectric Textile for Harvesting Human Motion Energy[J]. Nano Energy, 2017. (SCI)
2. Zhang ZX, Jian H, Han JQ, Xu HY, Mu JL, Wen T, Wang DW, Tian ZM , Chen ZT, Xue CY. (2017). Magnetically levitated/piezoelectric/triboelectric hybrid generator as a power supply for the temperature sensor. Chinese Science: Technical Science (7), 1-7. (SCI)
3. Zhang Z., He J., Wen T., Zhai C., Han J., Wen T , Zhai C, Han JQ , Mu JL, Jia W , Zhang BZ, Zhang WD, Chou XJ, Xue CY. (2017). Magnetically levitated-triboelectric nanogenerator as a self-powered vibration monitoring sensor. Nano Energy, 33, 88-97. (SCI)
4. Li YF, Hai ZY , Hou XJ , Xu HY, Zhang ZX , Cui DF , Xue CY , Zhang BZ. (2017). Self-assembly of 3d fennel-like co3o4 with thirty-six surfaces for high performance supercapacitor. Journal of Nanomaterials,2017,(2017-3-7), 70(4), 295. (SCI)
5. Wang, Y., Xue, C., Zhang, Z., Zheng, H., Zhang, W., & Yan, S. (2016). Tunable optical analog to electromagnetically induced transparency in graphene-ring resonators system. Sci Rep, 6. (SCI)
6. Zhang, R., Xue, C., He, C., Zhang, Y., Song, J., & Zhang, W. (2016). Design and performance analysis of capacitive micromachined ultrasonic transducer (cmut) array for underwater imaging. Microsystem Technologies, 22(12), 1-9. (SCI)
7. Wang, Y., Zheng, H., Xue, C., & Zhang, W. (2016). Optical analog to electromagnetically induced transparency in cascaded ring-resonator systems:. Sensors, 16(8), 1165. (SCI)
8. Zhang, Q., Hai, Z., Jian, A., Xu, H., Xue, C., & Sang, S. (2016). Synthesis of p-co3o4/n-tio2nanoparticles for overall water splitting under visible light irradiation. Nanomaterials, 6(8), 138. (SCI)
9. Tong, X., Hai, Z., Cui, D., Gao, L., Zhang, Q., & Xu, H., Xu, HY; Ma, YT; Xue, CY. (2016). Investigation of lattice distortion of co3o4 nanoparticles prepared by a carbon-assisted method. Microelectronic Engineering, 159(C), 17-20. (SCI)
10. Rui, Z., Zhang, W., He, C., Zhang, Y., Song, J., & Xue, C. (2016). Underwater imaging using a 1 × 16 cmut linear array:. Sensors, 16(3), 312. (SCI)
11. Xu, HY; Diwu, JT; Hai, ZY; Gao, LB; Zhang, Q; Tang, J; Zhang, BZ; Xue, CY et al. (2016). A study of the growth process of co3o4 microcrystals synthesized via a hydrothermal method. Crystal Research & Technology, 51(2), 123-128. (SCI)
12. Hai, ZY; Gao, LB; Zhang, Q; Xu, HY; Cui, DF; Zhang, ZX; Tsoukalas, D; Tang, J; Yan, SB; Xue, CY. (2016). Facile synthesis of core–shell structured pani-co3o4, nanocomposites with superior electrochemical performance in supercapacitors. Applied Surface Science, 361, 57-62. (SCI)
13. Song, J., Xue, C., He, C., Zhang, R., Mu, L., & Cui, J., et al. (2015). Capacitive micromachined ultrasonic transducers (cmuts) for underwater imaging applications. Sensors, 15(9), 23205-23217. (SCI)
14. Xu, HY; Hai, ZY; Diwu, JT; Zhang, Q; Gao, LB; Cui, DF; Zang, JB; Liu, J; Xue, CY. (2015). Synthesis and microwave absorption properties of core-shell structured co3o-pani nanocomposites. Journal of Nanomaterials,2015,(2015-10-11), 2015(5), 1-8. (SCI).
15. Libo Gao, Qiang Zhang, Junyang Li, Ruiting Feng, Hongyan Xu, & Chenyang Xue. (2014). Adsorption of methyl orange on magnetically separable mesoporous titania nanocomposite. Chinese Journal of Chemical Engineering, 22(10), 1168-1173. (SCI)
16. Cui, DF; Xie, CF; Liu, YY; Li, YN; Wei, LP; Wang, YH; Liu, J; Xue, CY. (2014). Experimental demonstration of induced-transparency based on a novel resonator system. Optics Communications, 324(4), 296-300. (SCI)
17. Qiang, Z., Li, J., Yuan, Y., Gao, L., & Xue, C. (2014). Micro double tapered optical fiber sensors based on the evanescent field-effect and surface modification. Optik - International Journal for Light and Electron Optics, 125(17), 4614-4617. (SCI)
18. Xu, HY; Gao, LB; Zhang, Q; Li, JY; Diwu, JT; Chou, XJ; Tang, J; Xue, CY. (2014). Preparation method of co3o4 nanoparticles using degreasing cotton and their electrochemical performances in supercapacitors. Journal of Nanomaterials, 2014(2), 1-9. (SCI)
(2) As the first author
1. Xue, C., Li, J., Zhang, Q., Zhang, Z., Hai, Z., & Gao, L., et al. (2014). A novel arch-shape nanogenerator based on piezoelectric and triboelectric mechanism for mechanical energy harvesting:. Nanomaterials, 5(1), 36-46. (SCI).
2. Xue C, Tan Z, Shi W, et al. The Effect of Drain/Gate Bias on Electromechanical Coupling Effect in Accelerometer Based on MESFET[J]. IEEE Sensors Journal, 2010, 11(2):384-388.
3. Xue C, Hu J, Zhang W, et al. Integration of GaAs/In 0.1 Ga 0.9 As/AlAs resonance tunneling heterostructures into micro-electro-mechanical systems for sensor applications[J]. Physica Status Solidi, 2010, 207(2):462-467.
4. Xue C, Tong Z, Zhang B, et al. A Novel Vector Hydrophone Based on the Piezoresistive Effect of Resonant Tunneling Diode[J]. IEEE Sensors Journal, 2008, 8(4):401-402.
5. Xue C, Chen S, Qiao H, et al. Development of a Novel Two Axis Piezoresistive Micro Accelerometer Based on Silicon[J]. Sensor Letters, 2008, 6(1):149-158(10).
6. Xue C, Chen S, Zhang W, et al. Design, fabrication, and preliminary characterization of a novel MEMS bionic vector hydrophone[J]. Microelectronics Journal, 2007, 38(10):1021-1026.
7. Xue C, Zheng L, Zhang W, et al. A dynamic stress analyzer for microelectromechanical systems (MEMS) based on Raman spectroscopy[J]. Journal of Raman Spectroscopy, 2010, 38(4):467-471.
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