English 中文版

Professor Hang Guo

Ph.D. Supervisor

Email: hangguo@xmu.edu.cn

Address: Room 407, Yi Xuan Hall, Xiamen University

Educational Background and Work Experience

Graduated from the Department of Electrical and Automation Engineering at Tianjin University in 1987. From September 1987 to August 1990, he worked at the New Energy Research Office of the Institute of Electrical Engineering, Chinese Academy of Sciences. From September 1990 to March 1993, he studied at the Graduate School of the Chinese Academy of Sciences and obtained a master's degree. From April 1993 to August 1996, he served as an assistant researcher and deputy head of the permanent magnet research group at the Special Electrical Machine Research Office of the Institute of Electrical Engineering, Chinese Academy of Sciences. He was one of the youngest young scientific research leaders in the Institute of Electrical Engineering at that time, responsible for the research, design, and manufacturing of magnets for nuclear magnetic resonance imaging and large-scale permanent magnets for Mr. Samuel C.C. Ting's space antimatter detector (referred to as AMS magnets), with the AMS magnets receiving the National Science and Technology Progress Award in 1998. From September 1996 to December 2002, he studied microelectronics and solid-state at the Department of Electrical and Computer Engineering at the University of Wisconsin-Madison, focusing on micro-electromechanical systems (MEMS), and obtained a Ph.D. From December 2002 to August 2005, he served as a postdoctoral researcher at the School of Electrical and Computer Engineering at Cornell University. In September 2005, he returned to China and became an associate professor at the Sa Ben Dang Micro-Electro-Mechanical Research Center at Xiamen University, was promoted to professor in 2008, and served as the deputy director of the Sa Ben Dang Micro-Electro-Mechanical Research Center. In 2009, he became a Ph.D. supervisor. He received the He Yici Lecture Professor Award in 2006 and 2007, and the New Century Excellent Talents Support Program Award from the Ministry of Education in 2007. His research directions include: Micro-Electro-Mechanical Systems (MEMS), micro-energy devices and systems, piezoelectric and ultrasonic, nanomaterials and devices. He serves as a member of the IEEE Society, a director of the Micro and Nano Devices and Systems Technology Branch of the Chinese Instrument and Control Society, a director of the Sensor Branch, and a director of the China Sensor Industry Association; he was the chairman of the Technical Committee for the 5th IEEE International Conference on Nano/Micro Engineered and Molecular Systems (IEEE NEMS) in 2010, and the chairman of the Program Committee for the 5th National Symposium on Piezoelectric and Acoustic Theory and Device Technology in 2010. He has led and completed multiple National Natural Science Foundation projects, National 863 projects, major science and technology projects in Fujian Province, natural science fund projects, and science and technology projects in Xiamen City, and has trained numerous master's and doctoral students.

Research Directions

Micro-Electro-Mechanical Systems (MEMS), micro-energy devices and systems, piezoelectric and ultrasonic, nanomaterials and devices.

Including:

1. Micro-Electro-Mechanical Systems: Micro-nano sensors and actuators

2. Micro-energy devices and systems (including the preparation and characterization of micro-nano materials, micro-fabrication manufacturing and operation testing of devices and systems)

1) All-solid-state micro-thin film lithium-ion batteries

2) Micro fuel cells

3) Micro nuclear batteries

4) Supercapacitors

3. Preparation of piezoelectric ceramic thin film materials and piezoelectric micro-nano structures, and devices and systems

Recruiting: Master's and doctoral students, and postdoctoral researchers in microelectronics and solid-state, testing and metrology technology, energy chemistry, mechanical engineering, electronic/electrical engineering.

Patents Applied

1. Guo Hang, Lin Jie, Guo Jianlai, Liu Chang. A three-dimensional all-solid-state micro-thin film lithium battery with an inverted pyramid array structure. Application number: 201410380855.1. Application date, 2014-08-05.

2. Guo Hang, Dai Chang, Dai Kai, Wu Kai. GaN Schottky junction type nuclear battery and its preparation method. Application number: 201410808033.9. Application date: 2014-12-22. Patent number: ZL 201410808033.9. Authorization announcement number: CN 104464868 B. Authorization date: 2017-01-25.

3. Guo Hang, Dai Changhong, Wu Kai, Dai Kai. Pore silicon PN junction type nuclear battery and its preparation method. Application number: 201410804724.1. Application date: 2014-12-22. Patent number: ZL 201410804724.1. Authorization announcement number: CN 104485150 B. Authorization date: 2017-07-25.

4. Guo Hang, Wang Tingting, Zeng Yibo, Chen Guansheng. Preparation method of a miniaturized direct formic acid fuel cell based on MEMS technology. Application number: 201510026708.9. Application date: 2015-01-20. Patent number: ZL 201510026708.9. Authorization announcement number: CN 104577160 B. Authorization date: 2017-07-25.

5. Guo Hang, Zeng Yibo, Wang Tingting, Wu Xiaolin. Preparation method of a large-area strong hydrophobic flexible thin film. Application number: 201510026535.0. Application date: 2015-01-20. Patent number: ZL 201510026535.0. Authorization announcement number: CN 104609363 B. Authorization date: 2016-06-01.

6. Guo Hang, Wang Jianyan. A single-axis piezoelectric accelerometer. Application number: 201510134504.7. Application date: 2015-03-26.

7. Guo Hang, Wang Jianyan. A three-axis piezoelectric accelerometer. Application number: 201510134575.7. Application date: 2015-03-26. Patent number: ZL201510134575.7. Authorization announcement number: CN 104764904 B. Authorization date: 2018-04-10.

8. Guo Hang, Wu Yuling. Preparation method and application of graphene/tin dioxide composite nanofiber membrane. Application number: 201510882909.9. Application date: 2015-12-04. Patent number: ZL 201510882909.9. Authorization announcement number: CN 105470484 B. Authorization date: 2018-01-23.

9. Zeng Yibo, Guo Hang. Temporary bonding method for ultra-thin silicon wafers at the wafer level for chemical mechanical polishing. Application number: 201610217363.X. Application date: 2016-04-08. Patent number: ZL 201610217363.X. Authorization announcement number: CN 105800547 B. Authorization date: 2017-06-16.

10. Guo Hang, Han Ruihua, Zhou Hui, Zhou Yunlei. A MEMS piezoelectric ultrasonic pump. Application date: 2017-02-28.

Publications

1. Jie Zhang, Jie Lin, Yibo Zeng, Ying Zhang, Hang Guo^*. Morphological and structural evolution of MnO@C anode and its application in Lithium-ion capacitors.ACS Applied Energy Materials.2 (2019) 8345–8358

2. Jie Lin, Jin-Myoung Lim, Duck Hyun Youn, Yang Liu, Yuxin Cai, Kenta Kawashima, Jun-Hyuk Kim, Dong-Liang Peng*, Hang Guo*, Graeme Henkelman, Adam Heller, C. Buddie Mullins*. Cu₄SnS₄‑Rich Nanomaterials for Thin-Film Lithium Batteries with Enhanced Conversion Reaction.ACS nano, 2019, 13(9): 10671-10681.

3. Mahui Xu, Hui Zhou, Jienan Shen, Yibo Zeng, Yongjian Feng, Hang Guo*. Design and fabrication of a D33-mode piezoelectric micro-accelerometer.Microsystem Technologies, 2019, 25(12): 4465-4474.

4.Jie Zhang, Heng Jiang, Yibo Zeng, Ying Zhang*, Hang Guo^*. Oxygen-defective Co₃O₄for pseudo-capacitive lithium storage.Journal of Power Sources.2019, 439, 227026

5. Jienan Shen, Yibo Zeng, Linhui Zhu, Mahui Xu, Baolin Liu and Hang Guo*. Effects of annealing parameters on residual stress and piezoelectric performance of ZnO thin films by X-ray diffraction and atomic force microscopy,Journal of Applied Crystallography, 2019, 52, 1-9

6. Linhui Zhu, Yanli Chen, Changqing Wu, Ruixia Chu, Jie Zhang, Heng Jiang, Yibo Zeng, Ying Zhang, Hang Guo*. Double-carbon protected silicon anode for high performance lithiumion batteries.Journal of Alloys and Compounds, 2020, 812,151848.

7. Jie Zhang, Ruixia Chu, Yanli Chen, Yibo Zeng, Ying Zhang*, Hang Guo*. Porous carbon encapsulated Mn₃O₄for stable lithium storage and its ex-situ XPS study.Electrochimica Acta2019, 319, 518-526.

8. Jie Zhang, Ruixia Chu, Yanli Chen, Heng Jiang, Yibo Zeng, Ying Zhang*, Nay Ming Huang,

Hang Guo*. Binder-free C@NiCo₂O₄on Ni foam with ultra-stable pseudocapacitive lithium ion storage.Nanotechnology, 2019, 30: 125402-12410.

9. Jie Zhang, Yanli Chen, Ruixia Chu, Heng Jiang, Yibo Zeng, Ying Zhang*, Nay Ming Huang, Hang Guo*. Pseudocapacitive P-doped NiCo₂O₄microspheres as stable anode for lithium ion batteries.Journal of Alloys and Compounds, 2019, 787:1051-1062.

10.Yibo Zeng, Jie Zhang, Hui Zhou, Hang Guo*. A new processing technique for fabrication of ultra-thin wafer.The International Journal of Advanced Manufacturing Technology, 2019, 100(5-8): 1287-1298.

11. Jie Zhang, Ruixia Chu, Yanli Chen, Heng Jiang, Ying Zhang*, Nay Ming Huang, Hang Guo*. In-situ grown hierarchical ZnCo₂O₄nanosheets on nickel foam as binder-free anode for lithium ion batteries.Ceramics International, 2018, 44(14): 16219-16226.

12. Yanli Chen, Dongtao Ge, Jie Zhang, Ruixia Chu, Jian Zheng, Changqing Wu, Yibo Zeng, Ying Zhang* and Hang Guo*. Ultrafine Mo-doped SnO₂nanostructure and derivative Mo-doped Sn/C nanofibers for high-performance lithium-ion batteries.Nanoscale, 2018, 10(36): 17378-17387.

13. Jie Zhang, Ruixia Chu, Yanli Chen, Heng Jiang, Ying Zhang*, Nayming Huang, Hang Guo*. Electrodeposited binder-free NiCo₂O₄@Carbon nanofiber as high performance anode for lithium ion batteries.Nanotechnology.2018, 29(12): 125401-125410.

14．曾毅波,张杰,许马会,郝锐,沈杰男,周辉,郭航*. MEMS中基底和薄膜的CMP制造技术.光学精密工程, 2018，26(6):1450.

15.Jie Lin, Jin-Myoung Lim, Duck Hyun Youn, Kenta Kawashima, Jun-Hyuk Kim, Yang Liu, Hang Guo*, Graeme Henkelman, Adam Heller, Charles Buddie Mullins. Self-assembled Cu-Sn-S nanotubes with high-de lithiation performance.ACS Nano，2017, 11(10): 10347-10356.

16.Ruixia Chu, Jie Lin, Changqing Wu, Jian Zheng, Yanli Chen, Jie Zhang, Ruihua Han, Ying Zhang*, Hang Guo*. Reduced graphene oxide coated porous carbon-sulfur nanofiber as flexible paper electrode for lithium-sulfur battery.Nanoscale, 2017, 9(26): 9129-9138.

17.毕瑞可,张杰,吴玉玲,曾毅波,张为中,郭航*.化学气相沉积法制备单层石墨烯的优化.微纳电子技术, 2017, 54(3): 181-187.

18.吴玉玲,毕瑞可,张杰,吴长青,张为中,郭航*.石墨烯湿法转移过程工艺优化.微纳电子技术, 2017, 54(8): 565-570.

19. Changqing Wu, Jie Lin, Ruixia Chu, Jian Zheng, Yanli Chen, Jie Zhang, Hang Guo*. Reduced graphene oxide as a dual-functional enhancer wrapped over silicon/porous carbon nanofibers for high-performance lithium-ion battery anodes.Journal of Materials Science, 2017, 52(13): 7984-7996.

20. Jian Zheng, Jie Lin, Ruixia Chu, Changqing Wu, Jie Zhang, Yanli Chen, Ying Zhang*, Hang Guo*. ZnO nanoparticles anchored on nickel foam with graphene as morphology-controlling agent for high-performance lithiumion battery anodes.Journal of Applied Electrochemistry, 2017, 47(8):969–978.

21. Yuling Wu, Yanli Chen, Jie Lin, Ruixia Chu, Jian Zheng, Changqing Wu, Hang Guo*. Three-dimensional tin dioxide-graphene composite nanofiber membrane as binder-free anode for high performance lithium-ion batteries.Journal of Materials Science, 2017, 52(13): 8097–8106.

22. Jie Lin, Yuling Wu, Ruike Bi, and Hang Guo*. All-solid-state microscale lithium-ion battery fabricated by a simple process with graphene as anode.Sensors and Actuators A, 2017, 253:

23. Jie Lin, Jianlai Guo, Chang Liu, and Hang Guo*. Artificial solid electrolyte interphase with in-situ formed porosity for enhancing lithiation of silicon wafer.Journal of Power Sources, 2016, 336: 401-407.

24. Jie Lin, Jianlai Guo, Chang Liu, and Hang Guo*. Ultrahigh-performance Cu₂ZnSnS₄thin Film and its application in microscale thin-film lithium-ion battery: comparison with SnO₂.ACS Applied Materials and Interfaces, 2016, 8: 34372-34378.

25. Jie Lin, Jianlai Guo, Chang Liu, and Hang Guo*. Three-dimensional Cu₂ZnSnS₄films with modified surface for thin film lithium-ion batteries.ACS Applied Materials and Interfaces, 2015, 7(31): 17311-17317.

26. Jie Lin, Jianlai Guo, Chang Liu, and Hang Guo*. Composite films as high performance anode materials in thin film lithium-ion batteries.Journal of Materials Chemistry A, 2015, 3(15): 7759-7766.