刘会聪

副教授/硕导

个人简介:

2013年获新加坡国立大学博士学位。2013.8至2014.8于新加坡国立大学电子与计算机工程学院从事博士后工作。现任www.优德88.cpm 机器人与微系统研究中心副教授。近年来一直从事微能源采集、能量传输和自供电微传感系统相关研究工作,并取得一系列引人瞩目的研究成果。目前已合作撰写专著1篇,发表SCI期刊文章13篇(5年内被引用次数97次),国际会议文章17篇(EI检索6篇),国际会议邀请演讲2篇。2012年在日本举行的国际电子材料会议(IUMRS-ICEM)上获得“青年科学家银奖”,2014年获得江苏省创新创业人才“博士计划(境外世界名校类)”奖励。目前主持和参与多项国家自然科学基金、江苏省自然科学基金和国家863计划项目。

教育背景:

2002/09 - 2006/07 北京科技大学,机械工程及自动化,学士
2006/09 - 2008/07 北京科技大学,机械设计及理论,硕士
2008/08 - 2012/08 新加坡国立大学,机械工程学院,博士

研究工作经历:

2013/08 – 至今 www.优德88.cpm ,机器人与微系统研究中心,副教授
2012/08 - 2013/08 新加坡国立大学,电子计算机工程学院,博士后研究员

科研成果:

主要论文:
发表论文 (SCI检索文章13篇, 会议文章17篇,邀请演讲2篇)
Journal papers:
1. Huicong Liu, Kah How Koh and Chengkuo Lee, Ultra-wide frequency broadening mechanism for micro-scale electromagnetic energy harvester, Appl. Phys. Lett., vol. 104, no. 5, pp. 053901, 2014. (SCI/EI, IF: 3.515)
2. Huicong Liu, You Qian, Nan Wang and Chengkuo Lee, An in-plane approximated nonlinear MEMS electromagnetic energy harvester, IEEE/ASME J. Microelectromech. Syst., vol. 23, no. 3, pp. 740-749, 2014. (SCI/EI, IF: 1.915)
3. Huicong Liu, Songsong Zhang, Takeshi Kobayashi, Tao Chen and Chengkuo Lee, Flow sensing and energy harvesting characteristics of a wind-driven piezoelectric Pb(Zr0.52, Ti0.48)O3 microcantilever, Micro & Nano Lett., vol. 9, no.4, pp. 286-289, 2014. (SCI/EI, IF: 0.799)
4. Huicong Liu, You Qian and Chengkuo Lee, A multi-frequency vibration-based MEMS electromagnetic energy harvesting device, Sens. Actuators A: Phys., vol. 204, pp. 37-43, 2013. (SCI/EI, IF: 1.943, Citation: 1)
5. Lokesh Dhakar, Huicong Liu, F. E. H. Tay, and Chengkuo Lee, A new energy harvester design for high power output at low frequencies, Sens. Actuators A: Phys., vol. 199, pp. 344-352, 2013. (SCI/EI, IF: 1.943, Citation: 2)
6. Huicong Liu, Chengkuo Lee, Takeshi Kobayashi, Cho Jui Tay, and Chenggen Quan, Investigation of a MEMS piezoelectric energy harvester system with frequency-widen-bandwidth mechanism introduced by mechanical stopper, Smart Mater. Struct., vol. 21, no. 3, 035005, 2012. (SCI/EI, IF: 2.089, Citation: 9)
7. Huicong Liu, Songsong Zhang, Ramprakash Kathiresan, Takeshi Kobayashi and, Chengkuo Lee, Development of piezoelectric microcantilever flow sensor with wind-driven energy harvesting capability, Appl. Phys. Lett., vol. 100, no. 22, 223905, 2012. (SCI/EI, IF: 3.794, Citation: 11)
8. Huicong Liu, Chengkuo Lee, Takeshi Kobayashi, Cho Jui Tay, and Chenggen Quan, Piezoelectric MEMS-based wideband energy harvesting systems using a frequency-up-conversion cantilever stopper, Sens. Actuators A: Phys., vol. 186, pp. 242-248, 2012. (SCI/EI, IF: 1.841, Citation: 8)
9. Huicong Liu, Bo Woon Soon, Nan Wang, Cho Jui Tay, Chenggen Quan, and Chengkuo Lee, Feasibility study of a 3-D vibration-driven electromagnetic MEMS energy harvester with multiple vibration modes, J. Micromech. Microeng., vol. 22, no. 12, 125020, 2012. (SCI/EI, IF: 1.79, Citation: 1)
10. Huicong Liu, Cho Jui Tay, Chenggen Quan, Takeshi Kobayashi, and Chengkuo Lee, Piezoelectric MEMS energy harvester for low-frequency vibrations with wideband operation range and steadily increased output power, IEEE/ASME J. Microelectromech. Syst., vol. 20, no. 5, pp. 1131-1142, 2011.(SCI, IF: 2.098, Citation: 31)
11. Huicong Liu, Chengkuo Lee, Takeshi Kobayashi, Cho Jui Tay, and Chenggen Quan, A New S-shaped MEMS PZT Cantilever for Energy Harvesting from Low Frequency Vibrations Below 30 Hz, Microsyst. Technol., vol. 18 no. 4, pp. 497-506, 2012. (SCI/EI, IF: 0.827, Citation: 7)
12. Huicong Liu, Cho Jui Tay, Chenggen Quan, Takeshi Kobayashi, and Chengkuo Lee, A scrape-through piezoelectric MEMS energy harvester with frequency broadband and up-conversion behaviors, Microsyst. Technol., vol. 17, no. 12, pp. 1747-1754, 2011. (SCI/EI, IF: 0.931, Citation: 1)
13. Cho Jui Tay, Chenggen Quan, Huicong Liu, and Mahadevaiah Gopal, Stress gradient of a micro-optoelectromechanical systems Fabry–Perot cavity based on InP, J. Micro/Nanolith. MEMS MOEMS, vol. 9, no. 2, pp. 023010, Apr–Jun 2010. (SCI/EI, IF: 1.915, Citation: 1)
Invited talk:
1. Huicong Liu, Takeshi Kobayashi, and Chengkuo Lee, Vibration-based MEMS energy harvesting system for wireless biomedical sensors, Intern. Conf. on BioElectronics, BioSensor, BioMedical Devices, BioMEMS/NEMS and Applications 2012 (Bio4Apps 2012), Invited talk 5, CeLS, National University of Singapore, Singapore, Nov. 19-20, 2012.
2. Huicong Liu, Takeshi Kobayashi and Chengkuo Lee, MEMS Based Piezoelectric Energy Harvesters using PZT Cantilevers,Intern. Union of Mat. Research Soc. - Intern. Conf. on Electronic Mat. (IUMRS-ICEM 2012), Symposium C-4 (Green Micro Energy Management Systems), C-4-I26-003, Yokohama, Japan, Sep. 23-28, 2012.
Conference papers
1. Huicong Liu, Faezeh Arab Hassani, Tao Chen,Haibo Huang, Lining Sun and Chengkuo Lee, A Nonlinear Electromagnetic Energy Harvester From Hand Shaking, The 6th International Symposium on Microchemistry and Microsystems (ISMM 2014), pp. 30-33, Singapore, Jul. 29 – Aug. 1, 2014.
2. Huicong Liu, Lokesh Dhakar, and Chengkuo Lee, Ultra-broadband electromagnetic MEMS vibration energy harvesting, The 13th International Workshop on Micro and Nanotechnology for Power Generation and Energy Conversion Applications (Power MEMS 2013), We4L.29, pp. 231-234, London, UK, Dec. 3-6, 2013.
3. Lokesh Dhakar, Huicong Liu, F. E. H. Tay and Chengkuo Lee, A wideband triboelectric energy harvester, The 13th International Workshop on Micro and Nanotechnology for Power Generation and Energy Conversion Applications (Power MEMS 2013), Fr1A.3, pp. 617-620, London, UK, Dec. 3-6, 2013.
4. Huicong Liu and Chengkuo Lee, Vibration-based Electromagnetic MEMS Energy Harvester with Multiple Operation Frequencies, Intern. Conf. on BioElectronics, BioSensor, BioMedical Devices, BioMEMS/NEMS and Applications 2013 (Bio4Apps 2013) &5th Sensing Biology Symposium, PNM-2, Tokyo Medical and Dental University, Tokyo, Japan, Oct. 30-31, 2013.
5. Lokesh Dhakar, Huicong Liu, F. E. H. Tay, and Chengkuo Lee, Low-Frequency Vibration-Based Energy Harvester Using a Piezoelectric Compositer, The 18th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems (NEMS 2013), Suzhou, China, 2C2-5, Apr. 7-10, 2013.
6. Huicong Liu, You Qian, Nan Wang, and Chengkuo Lee, Study of the wideband behavior of an in-plane electromagnetic MEMS energy harvester, The 26th IEEE International Conference on Micro Electro Mechanical Systems (IEEE MEMS 2013), pp. 829-832, Taipei, Taiwan, Jan. 20-24, 2013.
7. Huicong Liu, Lokesh Dhakar, and Chengkuo Lee, Multi-frequency MEMS-based electromagnetic energy harvester, 12th International Workshop on Micro and Nanotechnology for Power Generation and Energy Conversion Applications (Power MEMS 2012) , 01A-4, Atlanta, Georgia, USA, Dec. 2-5, 2012.
8. Lokesh Dhakar, Huicong Liu, F. E. H. Tay, and Chengkuo Lee, Low-frequency vibration-based energy harvester using a piezoelectric composite beam, Intern. Conf. on BioElectronics, BioSensor, BioMedical Devices, BioMEMS/NEMS and Applications 2012 (Bio4Apps 2012), PP-12, CeLS, National University of Singapore, Singapore, Nov. 19-20, 2012.
9. Songsong Zhang, Liang Lou, Huicong Liu, and Chengkuo Lee, Piezoresistive air flow meter with silicon nanowire as sensing element, Intern. Union of Mat. Research Soc. - Intern. Conf. on Electronic Mat. (IUMRS-ICEM 2012), Symposium B-7 (MEMS/NEMS and MicroTAS), B-7O24-003, Yokohama, Japan, Sep. 23-28, 2012.
10. Huicong Liu, Songsong Zhang and Chengkuo Lee, Flow sensing and energy harvesting characteristics of a wind-driven piezoelectric PZT microcantilever, Thin Films 2012, FPT 2465, Singapore, Jul. 14-17, 2012.
11. Huicong Liu, Chengkuo Lee, Takeshi Kobayashi, Cho Jui Tay, and Chenggen Quan, A MEMS-based wideband piezoelectric energy harvester system using mechanical stoppers, IEEE IEDM Tech. Dig., pp. 681-684, Washington DC, USA, Dec. 5-7, 2011.
12. Huicong Liu, Chengkuo Lee, Takeshi Kobayashi, Cho Jui Tay, and Chenggen Quan, Study of the operation-frequency broading effect of MEMS piezoelectric energy harvester for low-frequency vibrations, Power MEMS 2011, 2A-1, pp. 34-37 Seoul, Republic of Korea, Nov. 15-18, 2011.
13. Huicong Liu, Chengkuo Lee, Takeshi Kobayashi, Cho Jui Tay, and Chenggen Quan, Investigation of Piezoelectric MEMS-based Wideband Energy Harvesting System with Assembled Frequency-up-conversion Mechanism, Eurosensors XXV, Athens, Greece, Sep. 4-7, 2011, published at Procedia Eng, vol. 25, pp. 725-728, 2011.
14. Kah How Koh, Takeshi Kobayashi, Huicong Liu, and Chengkuo Lee, Investigation of a piezoelectric driven MEMS mirror based on single S-shaped PZT actuator, Eurosensors XXV, Athens, Greece, Sep. 4-7, 2011, published at Procedia Eng, vol. 25, pp. 701-704, 2011.
15. Huicong Liu, Takeshi Kobayashi, Nan Wang, Cho Jui Tay, Chenggen Quan, and Chengkuo Lee, Piezoelectric MEMS energy harvesting mechanism for collecting energy from low frequency vibrations - Toward self-powered wireless sensor networking, 8th IEEE Intern. Conf. on Networked Sensing Systems (INSS), Penghu, Taiwan, Jun. 12-15, 2011.
16. Huicong Liu, Chenggen Quan, Cho Jui Tay, Takeshi Kobayashi, and Chengkuo Lee, A MEMS-based piezoelectric cantilever patterned with PZT thin film array for harvesting energy from low frequency vibrations, 2011 Intern. Conf. on Optics in Precision Engineering and Nanotechnology (ICOPEN 2011), Singapore, Mar. 23-25, 2011, published at Physics Procedia, vol. 19, pp. 129-133, 2011.
17. Huicong Liu, Cho Jui Tay, Chenggen Quan, Takeshi Kobayashi, and Chengkuo Lee, Dynamic characterization of a MEMS-based PZT cantilever for energy harvesting, Intern. Conf. on Experimental Mechanics (ICEM2010), 29 Nov.-1 Dec. 2010, Kuala Lumpur, Malaysia.
主要论著:
Bin Yang, Huicong Liu, Jingquan Liu, and Chengkuo Lee, Micro and Nano Energy Harvesting Technologies,ARTECH HOUSE, 2014.
主要获奖:
2012年在日本举行的国际电子材料会议(IUMRS-ICEM)上获 “青年科学家银奖”
2014年江苏省创新创业“博士计划”(境外世界名校类)

主要科研项目:

1. 国家自然科学基金(青年)“面向无线传感网络的升频式MEMS高效能量采集机理及方法研究”(主持)
2. 江苏省自然科学基金(青年)“三维纳米摩擦高效能量采集方法研究”(主持)3. 国家自然科学基金(面上)“微型化亚太赫兹超材料发射器的研究”(参与)
4. 国家863项目“面向重大工程的安防工业传感网节点微能源研发与示范应用”(参与)
5. 国家863项目“面向重型采煤机械在线状态监测的微纳系统三维异质集成技术”(参与)
6. 新加坡国家研究基金“自供电医疗躯域传感网络研究”(参与)
7. 新加坡科技研究局项目“面向无线医疗传感节点的硅基MEMS能量采集器” (参与)
8. 新加坡教育部研究基金“振动式MEMS能量采集装置” (参与)