孙成亮
职位:工研院副院长、教授、博导,betway必威A类学科带头人
通讯地址:betway必威雅各楼,430072
联系电话: 027-50853285
E-mail:chengliangsun@hotmail.com (个人);sunc@whu.edu.cn(办公)
教育经历
2001-2006 硕博连读(凝聚态物理)betway必威物理科学与技术学院
研究方向: 机敏传感器材料和器件的研制与应用
导师:赵兴中(杰青)
1995-1999 理学学士, betway必威物理系
专业:材料物理
工作经历
2017年8月至今:教授,betway必威A类学科带头人,betway必威
获betway必威启动资金400万;主要从事:RF射频谐振器、滤波器;能量采集及自供电物联网系统集成
2011年5月至2017年8月:研究员,课题组负责人,项目负责人,新加坡微电子研究院
主持项目7项,主要集中在基于氮化铝薄膜材料的MEMS能量采集器和射频谐振器、滤波器以及压力、粘度传感器等方面,共计项目资金1000多万新币。
- 自维持智能机器健康监测系统,课题负责人,2017年-2020年,(150万新币)
- 用于机器健康监测的传感器和物联网系统,课题负责人,2017年-2018年,(142.1万新币)
- 基于氮化铝薄膜的宽带能量采集器,课题负责人,2014年-2017年,(187.5万美金)
- TSV-MEMS Platform for RF Systems,课题共同负责人,2014年-2017年(280万新币)
- 极端环境下压力传感器二期项目,课题负责人,2015年-2017年(19.964万新币)
- 用于机油质量检测的年度传感器,课题负责人,2015年-2017年(26.517万新币)
- 基于氮化铝薄膜的微机电能量采集器,课题负责人,2012-2014(220万新币)
- 研究院核心项目基于氮化铝的高频谐振器件,课题负责人,2011-2013,(40万新币)
2009年8月—2011年5月:博士后,威斯康辛大学麦迪逊分校材料科学与工程学院
- 铁电,压电振动模式的能量采集器研究
- 微机电系统加工与合成
2007年8月—2009年7月:博士后,匹兹堡大学机械工程学院
- 铁电,压电振动模式的能量采集器研究
- 氮化铝薄膜制备与表征,微机电系统加工与合成
2006年6月—2007年7月:副研究员,香港理工大学应用物理系
2004年9月—2006年3月:助理研究员,香港理工大学应用物理系
1999年7月—2001年8月:助教,betway必威物理科学与技术学院
获奖及荣誉
2016 新加坡科技研究局“领导、教育和培养人才天赋奖”(部级奖项)
The Award for Leading, Educating & Nurturing Talent 2016
2014新加坡工程师学会卓越工程成就奖(国家级奖项)
Award: IES Prestigious Engineering Achievement Awards 2014
2014年新加坡科学研究局科学技术委员会二十大技术突破称号
1999, 2000, 2001, 2002连续四年获得betway必威优秀导师称号
1999年betway必威优秀毕业生
1996, 1997, 1998, 1999大学本科连续四年获得校级三好学生称号并获得奖学金
1995, 1996, 1997, 1998连续四年获得学校体育运动会奖
发表文章与专利
专利
- C.L. Sun, X.J. Mu, Ilker E. Ocak and Y.D. Gu, Energy harvesting device and method for forming the same, US 20150145376 A1.
- C.L. Sun, X.J. Mu, Peter H.K. Chang, Q.X. Zhang, and Y.D. Gu, Wei Mong Tsang, Energy harvesting device and method of harvesting energy, WO2014204410 A1, US 2016/0111980.
- Ilker E. Ocak, C.L. Sun, Julius M. Tsai, Sanchitha N. Fernando, Force feedback electrodes in MEMS accelerometer, US 20140260618 A1, CA2844685A1, EP2778692A1.
- Ilker E. Ocak, C.L. Sun, Julius M. Tsai, Sanchitha N. Fernando, Fully differential capacitive architecture for MEMS accelerometer, US 20140260617 A1, CA2844780A1, EP2778691A1.
- J.H. Xu, Julius M. Tsai, W. Sun, C.L. Sun, Sensor with Vacuum Sealed Cavity, US 9,321,30 B2.
- X.J. Mu, C.L. Sun, Y.D. Gu, Device for determining a property of a fluid and method of forming the same, WO 2015/076757.
- 赵兴中,孙成亮,国世上,李伟平,铙钹传感器,CN2676155 Y.
- Y. Zhu, N. Wang and C.L. Sun, Apodized Piezoelectric Resonator, Singapore provisional filed.
- Y. Zhu, N. Wang and C.L. Sun, Piezoelectric resonator with high coupling coefficient, Singapore provisional filed.
- Y. Zhu, N. Wang and C.L. Sun, Piezoelectric resonator array, filter, duplexer and multiplexer, Singapore provisional filed.
期刊
- C.L. Sun, J. Shi, D.J. Bayerl and X.D. Wang*, PVDF microbelts for harvesting energy from respiration, Energy & Environmental Science, 4, 4508-4512 2011. (citation: 150, IF 29.518)
- C.L. Sun, J. Shi and X.D. Wang*, Fundamental Study of Mechanical Energy Harvesting Using Piezoelectric Nanostructures, Journal of Applied Physics 108 (3), 034309, 2010. (citation: 55, IF 2.101)
- C.L. Sun, L.F. Qin, F. Li and Q.M. Wang*, Piezoelectric energy harvesting using single crystal Pb(Mg1/3Nb2/3)O3-xPbTiO3 (PMN-PT) devices, Journal of Intelligent Material Systems and Structures, 20, 559-568, 2009. (citation: 30, IF 1.975)
- Jian Shi, C.L. Sun, Matthew B. Starr and Xudong Wang*, Growth of Titanium Dioxide Nanorods in 3D-Confined Spaces, Nano Letters, 11, 624-631 2011. (citation: 62, IF 13.779)
- J. Shi, Y. Hara, C.L. Sun, M.A. Anderson, X.D. Wang*, Three-Dimensional High-Density Hierarchical Nanowire Architecture for High-Performance Photoelectrochemical Electrodes, Nano Letters, 11, 3413-3419 2011. (citation: 161, IF 13.779)
- Y. Zhu, N. Wang, G. Chua, C.L. Sun*, N. Singh, Y.D. Gu, ScAlN-Based LCAT Mode Resonators above 2GHz with High FOM and Reduced Fabrication Complexity, IEEE Electron Device Letters (EDL), Vol. 38, No. 10, pp 1481-1484, 2017. (citation: 0, IF 2.528)
- Q.Y. Xie, N. Wang, C.L. Sun*, A.B. Randles, P. Singh, X.L. Zhang and Y.D. Gu, Effectiveness of Oxide Trench Array as a Passive Temperature Compensation Structure in AlN-on-Silicon Micromechanical Resonators, Applied Physics Letters, 110, 083501, 2017. (citation: 0, IF 3.142).
- G.Q. Wu, Y. Zhu, S. Merugu, N. Wang, C.L. Sun*, Y.D. Gu, GHz spurious mode free AlN lamb wave resonator with high figure of merit using one dimensional phononic crystal tethers, Applied Physics Letters, 109, 013506, 2016. (citation: 0, IF 3.142).
- Y. Zhu, N. Wang, C.L. Sun*, S. Merugu, N. Singh, Y.D. Gu, A High Coupling Coefficient 2.3GHz AlN Resonator for High Band LTE Filtering Application, IEEE Electron Device Letters (EDL), 37 (10), 1344-1346, 2016. (citation: 0, IF 2.528)
- C.L. Sun, B.W. Soon, Y. Zhu, N. Wang, P.H. Loke, X.J. Mu, J.F. Tao and Y.D. Gu, Methods for improving electromechanical coupling coefficient in two dimensional electric field excited AlN Lamb wave resonators, Applied Physics Letters, 106, 253502, 2015. (citation: 0, IF 3.142)
- C.L. Sun, X.J. Mu, L.Y. Siow, W.M. Tsang, H.M. Ji, H.K. Chang, Q.X. Zhang, Y.D. Gu, and D.L. Kwong, A miniaturization strategy for harvesting vibration energy utilizing Helmholtz resonance and vortex shedding effect, IEEE Electron Device Letters (EDL), 35 (2), 271-273, 2014. (citation: 1, IF 2.528)
- C.L. Sun, L.F. Qin, X. Hao, Z.X. Xiong and Q.M. Wang, Ferroelectric and electromechanical property characterization of single Pb(ZrTi)O3 fiber resonator, Journal of Applied Physics, 107 (2), 2010. (citation: 3, IF 2.101)
- C.L. Sun, K. H. Lam, H. L. W. Chan, X-Z. Zhao, and C. L. Choy, Effect of geometry on the characteristics of a drum actuator, Journal of Intelligent Material Systems and Structures, vol. 18: pp. 1077 – 1082, 2007. (citation: 4, IF 1.975)
- C.L. Sun, K. H. Lam, C. Chao, S.T. Lau, H. L. W. Chan, S.S. Guo and X-Z. Zhao, Fabrication and characterization of Ni/P(VDF-TrFE) nanoscaled coaxial cables, Applied Physics Letters 90 (25): Art. No. 253107 Jun 18 2007. (citation: 10, IF 3.142)
- C.L. Sun, K. H. Lam, H. L. W. Chan, X-Z. Zhao, and C. L. Choy, A high sensitivity cymbal-based accelerometer, Review of Scientific Instruments, 77 (3): Art. No. 036109 Part 1 MAR 2006. (citation: 1, IF 1.336)
- C.L. Sun, K. H. Lam, J. Wang, H. L. W. Chan, X-Z. Zhao, and C. L. Choy, Precision piezoelectric acoustic position detector, Sensors and Actuators A: Physical, vol.128, Issue 2, p. 290-295,2006. (citation: 3, IF 2.201)
- C.L. Sun, K. H. Lam, H. L. W. Chan, X-Z. Zhao, and C. L. Choy, A novel drum piezoelectric-actuator, Applied Physics A: Materials Science & Processing, Volume 84, Number 4, pp. 385 – 389, Sep 2006. (citation: 7, IF 1.444)
- C.L. Sun, S.S. Guo, W.P. Li, Z.B. Xing, G.C. Liu, X.Z. Zhao, The effect of the geometry on the displacement amplification and resonance characteristics of the cymbal transducers, Integrated Ferroelectrics, vol. 80: 383-393 2006. (citation: 0, IF 0.375)
- C.L. Sun, S.S. Guo, W.P. Li, Z.B. Xing, G.C. Liu, X.Z. Zhao, Displacement amplification and resonance characteristics of the cymbal transducers, Sensors and Actuators A: Physical,vol.121, No.1, p.213-220, 2005. (citation: 22, IF 2.201)
- S.H. Wang, X.J. Mu, Y. Yang, C.L. Sun, A.Y.D. Gu and Z.L. Wang, Flow-driven triboelectric generator for directly powering a wireless sensor node, Advanced Materials, vol. 27, issue 2, p. 240-248, 2014. (citation: 12, IF 18.96)
- Y. Zhu, Y.J. Zheng, C.L. Sun, Y. Gao, Y.D. Gu, H. Campanella,A High-impedance Dual-mode SAW Resonator for Ultra Low Power and High Data Rate FSK Modulator, Sensors and Actuators A: Physical, vol. 220, p. 188-193, 2014. (citation: 1, IF 2.201)
- Y. Zhu, Y.J. Zheng, Y. Gao, D. I Made, C.L. Sun, M. Je, and Y.D. Gu, An Energy Autonomous 400 MHz Active Wireless SAW Temperature Sensor Powered by Vibration Energy Harvesting, IEEE Transactions on Circuits and Systems I, vol. 62, p976-985, 2015. (citation: 0, IF 2.393)
- K.H. Lam, C. L. Sun, K.W. Kwok, H.L.W. Chan, Piezoelectric dispenser based on a piezoelectric-metal-cavity actuator, Review of Scientific Instruments, 80(7):075110, Aug 2009. (citation: 4, IF 1.336)
- J.X. Zhang, J.Y. Dai, L.C. So, C.L. Sun, C.Y. Lo, S.W. Or, and H.L.W. Chan, The effect of magnetic nanoparticles on the morphology, ferroelectric, and magnetoelectric behaviors of CFO/P(VDF-TrFE) 0–3 nanocomposites, Journal of Applied Physics Vol. 105, Issue: 5 Article Number: 054102 Jan 2009. (citation: 29, IF 2.101)
- J.X. Zhang, J. Y. Dai, C. K. Chow, C. L. Sun, V. C. Lo, and H. L. W. Chan, Magnetoelectric coupling in CoFe2O4/SrRuO3/Pb(Zr0.52Ti0.48)O3 heteroepitaxial thin film structure, Applied Physics Letters 92, 022901 2008. (citation: 23, IF 3.142)
- K.H. Lam, C.L. Sun, H.L.W. Chan, et al., A piezoelectric-metal-cavity (PMC) actuator
Journal of Electroceramics 18 (3-4): 251-253 Aug 2007. (citation: 4, IF 1.263)
- M.S. Guo, X.P. Jiang, K.H. Lam, S. Wang, C. L. Sun, et al., Lead-free multilayer piezoelectric transformer, Review of Scientific Instruments, 78 (1): Art. No. 016105 JAN 2007. (citation: 3, IF 1.336)
- S. Wang, K.H. Lam, C.L. Sun, et al., Energy harvesting with piezoelectric drum transducer
Applied Physics Letters 90 (11): Art. No. 113506 Mar 12 2007. (citation: 41, IF 3.142)
- S. Wang, M.S. Guo, C.L. Sun, et al., A microstrip bandgap filter with the photonic band gap resonators, Microwave and Optical Technology Letters 49 (8): 2020-2022 Aug 2007. (citation: 0, IF 0.545)
- S.S. Guo, C.L. Sun, et al., Thermal study on structural changes and phase transition in high-energy electron-irradiated blends of P(VDF-TrFE) copolymers, Journal of Materials Science 42 (4): 1184-1189 FEB 2007. (citation: 4, IF 2.302)
- S.S. Guo, W.P. Li, L.W. Sang , C.L. Sun, X.Z. Zhao , Finite element analysis of underwater cymbal transducers with large displacement and fast response time, Integrated Ferroelectrics 78: 103-111 2006. (citation: 0, IF 0.375)
- X.H. Sun, B.L. Zhu, T. Liu, M.Y. Li, X.Z. Zhao, D.Y. Wang, C.L. Sun, and Helen L.W. Chan, Dielectric and tunable properties of K-doped Ba0.6Sr0.4TiO3 thin films fabricated by sol-gel method, Journal of Applied Physics, 99, 084103 2006. (citation: 41, IF 2.101)
- X.H. Sun, C.L. Sun, et al., Effect of 2-methoxyethanolon structure and dielectrical properties of (Pb0.25Ba0.15Sr0.6)TiO3 thin films by modified sol-gel technique, Journal of Crystal Growth 285 (4): 579-585 Dec. 15 2005. (citation: 2, IF 1.462)
- S.S. Guo, W.P. Li, C.L. Sun, et al., Leakage current and relaxation characteristics of electron-irradiated poly(vinylidene fluoride-trifluoroethylene) copolymers, Materials Letters,Vol.58, Issu.6, pp.1064-1070, 2004. (citation: 2, IF 2.437)
- S.S. Guo, W.P. Li, C.L. Sun, et al., Structural changes and phase behavior of electron-irradiated poly(vinylidene-trifluoroethylene) copolymers, Materials Chemistry & Physics,Vol.83, Iss.2-3, pp. 298-306, 2004. (citation: 3, IF 2.101)
- W.P. Li, S.S. Guo, Y.W. Tang, C.L. Sun, et al., Structural modification of electron-irradiated poly (vinylidene luoride-trifluoroethylene) copolymer, Journal of Materials Science, Vol.39,Iss.5, pp.1827-1829,2004. (citation: 1, IF 2.302)
- S.S. Guo,W.P. Li, C.L. Sun, et al., A Thermal Study on Phase Transition of High-Energy Electron-Irradiated P(VDF-TrFE) 80/20 mol﹪ Copolymers, Materials Chemistry & Physics Vol. 81, Issu.1, pp.166-173, 2003. (citation: 3, IF 2.101)
会议文章:
- C.L. Sun, Julius M. Tsai, Performance Enhancement of Checker-Mode AlN MEMS Resonators, ICMAT 2013 7th international conference on materials for advanced technologies, 30th June -5th July, Singapore.
- X.J. Mu, C.L. Sun, H.M. Ji, L.Y. Siow, Q.X. Zhang, Y. Zhu, H.B. Yu, J.F. Tao, Y.D. Gu and D.L. Kwong, A High Efficiency Frequency Pre-defined Flow-driven Energy Harvester Dominated by On-chip Modified Helmholtz Resonating Cavity, 2014 IEEE International Electron Devices Meeting.
- S.P.H. Loke, L.Y. Siow, C.L. Sun*, Q.X. Zhang and Y.D. Gu, Aluminium Nitride Piezoelectric Broadband Energy Harvesters, ICMAT 2015 international conference on materials for advanced technologies, 28th June -3rd July, Singapore.
- S.P.H. Loke, C.L. Sun*, Y. Zhu, N. Wang, Y.D. Gu, Two Dimensional, High Electromechanical Coupling Aluminium Nitride Lamb Wave Resonators, Conference on Electron Devices and Solid-State Circuits (EDSSC'2015).
- N. Wang, L.Y. Siow, Y.L. Wong, C.L. Sun*, H.M. Ji, D.I. Made, P. Chang, Q.X. Zhang and Y.D. Gu, Wafer-Level Vacuum-Packaged Piezoelectric Energy Harvesters Utilizing Two-Step Three-Wafer Bonding, IEEE Electronic Components and Technology Conference (ECTC 2017).
- N. Wang, C.L. Sun*, L.Y. Siow, , Q.X. Zhang, H.K. Chang and Y.D. Gu, AlN wideband energy harvesters with wafer-level vacuum oackaging utilizing three-wafer bonding, the 30th IEEE international conference on Micro electro Mechanical systems (MEMS 2017).
- Q.Y. Xie, N. Wang, C.L. Sun*, A.B. Randles, P. Singh, X.L. Zhang and Y.D. Gu, A passively temperature-compensated Dual-frequency AlN-on-Silicon resonator for accurate pressure sensing, the 30th IEEE international conference on Micro electro Mechanical systems (MEMS 2017).
- Y.L. Wong, L.Y. Siow, C.L. Sun*, N. Wang, H.M. Ji, H.K. Chang, Q.X. Zhang, and Y.D. Gu, AlN-based vibrational energy harvester for wireless sensing networks, ICMAT 2017 international conference on materials for advanced technologies, 28th June -3rd July, Singapore.
- Q.Y. Xie, Y.L. Wong, L.Y. Siow, N. Wang, Y. Zhu, C.L. Sun*, X.L. Zhang, and Y.D. Gu, Long-Term Reliability of AlN Platform for MEMS Resonators in Harsh Environments, ICMAT 2017 international conference on materials for advanced technologies, 28th June -3rd July, Singapore.
- T. Sun, C.L. Sun*, N. Wang, and Y.D. Gu, Surface characterization of AlN used for flexible broadband low-frequency energy harvester, ICMAT 2017 international conference on materials for advanced technologies, 28th June -3rd July, Singapore.