Professor San Haisheng
Ph.D. Supervisor
Email: sanhs@xmu.edu.cn
Address: Room 408, Yi Xuan Hall, Xiamen University
Personal Profile
Graduated from Southwest University of Science and Technology in 1993 with a Bachelor of Engineering degree in Mechanical Manufacturing. Pursued a Master's degree at the School of Physical Science and Technology, Lanzhou University in 2001. Undertook Ph.D. studies at the Institute of Semiconductors, Chinese Academy of Sciences in 2004 (jointly cultivated with Lanzhou University). Obtained a Doctor of Engineering degree in Material Physics in 2006. Engaged in postdoctoral research on MEMS devices and micro nuclear battery technology at Xiamen University in the same year, and remained at the university as a faculty member after completing the postdoctoral program in 2008. Visiting scholar at the Norwegian University of Science and Technology and the Micro System Research Center of Vestfold University in 2013. Awarded the title of Leading Entrepreneurial Talent in the "Double Hundred Plan" of Xiamen City in 2019, Distinguished Expert of "Xiamen University Science and Innovation Dream Workshop", and Dual-appointed Professor at Xiamen University's School of Electrical Science and Engineering (National Demonstration Microelectronics College). Mainly conducts research in the fields of Micro-Electro-Mechanical Systems (MEMS) and micro-nano energy, especially in the interdisciplinary areas of mechanics and microelectronics, wide bandgap semiconductor devices, and nuclear science and technology. Has undertaken projects funded by the National Natural Science Foundation of China, key projects of the Natural Science Foundation of Guangdong Province and Fujian Province, defense innovation special zone projects, and defense nuclear power innovation projects. To date, has published nearly a hundred articles, realized the transformation of 7 patents, and trained nearly 30 doctoral and master's students.
Admission Majors
1. Mechatronic Engineering;
2. Electronic Science and Technology;
3. Instrument Science and Technology
Recruiting masters, doctoral, and postdoctoral candidates with backgrounds in sensors, microelectronics, energy materials, and chemistry.
Contact Information: sanhs@xmu.edu.cn (Best contact method)
Selected Publications
1. R. R. Zheng, Z. Ding, H. S. San*, et al, “Electrochemical enhanced betavoltaic cells based on ZrO2@TiO2 nanorod arrays with type-I band alignment”, Applied Surface Science, Vol. 611,155757, 2023;
2. N. Wang, R. R. Zheng, H. S. San*, et al, “Betavoltaic-powered electrochemical cells using TiO2 nanotube arrays incorporated with carbon nanotubes”, Composites Part B, Vol. 239:109952, 2022.
3. C. S. Chen, J. Chen, Z. Wang, J. Zhang, H. S. San*, et al., “Free-standing ZnO nanorod arrays modified with single-walled carbon nanotubes for betavoltaics and photovoltaics”, Journal of Materials Science & Technology, Vol.54, pp.48-57, 2020.
4. C. S. Chen, B. F. Hu, Z. Wang, X. Q. Lv, H. S. San*, “Face-to-face intercrossed ZnO nanorod arrays with extensive NR-NR homojunctions for a highly sensitive and self-powered ultraviolet photodetector”, Nano Energy, 65:104042, 2019.
5. N. Wang, Y. Ma, J. Chen, C. S. Chen, H. S. San*, et al., “Defect-induced betavoltaic enhancement in black titania nanotube arrays”, Nanoscale, Vol.10, pp.13028-13036, 2018.
6. Y. Ma, N. Wang, J. Chen, C. S. Chen, H. S. San*, et al., “Beavoltaic enhancement using defect-engineered TiO2 nanotube arrays through electrochemical reduction in organic electrolytes”, ACS Appl. Mater. Interfaces, Vol.10 (26), pp.22174-22181, 2018.
7. C. S. Chen, N. Wang, P. Zhou, H. S. San*, et al., “Electrochemically reduced graphene oxide on well-aligned titanium dioxide nanotube arrays for betavoltaic enhancement”, ACS Applied Materials & Interfaces, Vol. 8(37), pp.24638–24644, 2016.
8. Q. Zhang, N. Wang, P. Zhou, C. S. Chen, H. S. San*, et al., “A betavoltaic microbattery using ZnO nanowires under build in potential difference”, MEMS 2016, Shanghai, China, Jan 24-28, 2016.
9. Q. Zhang, R. B. Chen, H. S. San*, et al., “Betavoltaic effect in titanium dioxide nanotube arrays under build-in potential difference”, Journal of Power Sources, Vol.282(5), pp.529-533, 2015.
10. H. S. San*, S. L. Yao, X. Wang, et al., “Design and simulation of GaN based Schottky betavoltaic nuclear micro-battery”, Applied Radiation and Isotopes, Vol.80, pp.17-22, 2013.
11. S. L. Yao, Z. J. Song, X. Wang, H. S. San*, et al., “Design and simulation of betavoltaic battery using large-grain polysilicon”, Applied Radiation and Isotopes, Vol.70(10), pp.2388-2394, 2012.
12. Z. J. Cheng, X. Y. Chen, H. S. San*, et al., “A high open-circuit voltage gallium nitride betavoltaic microbattery”, Journal of Micromechanics and Microengineering, Vol.22(7), pp.074011, 2012.
13. Wang Na, Ma Yang, Chen Changsong, Chen Jiang, San Haisheng*, "Research on β-volt effect based on one-dimensional TiO2 nanotube array thin films", Acta Physica Sinica, Vol.67(4), pp.047901(1-7), 2018.
14. San Haisheng, Zhang Qiang, Zhang Hong, Chen Ranbin, "A kind of isotope battery based on wide bandgap semiconductor nanotube array thin film structure", Chinese Invention Patent, ZL201410421891.8, 2014.12.10.
15. Chen Jige, San Haisheng, "A kind of quantum dot β-volt battery", Chinese Invention Patent, 201711436875.6, 2017.12.26.
16. San Haisheng, Wang Zhen, "Radiation electrochemical radioactive isotope battery", Chinese Invention Patent, 202110133369.X, 2021.01.29.
17. San Haisheng, Hu Baofa, "A kind of resonant surface acoustic wave wireless sensor powered by isotope battery", Chinese Invention Patent, ZL201810765279.0, 2018.07.12.
18. Chen Jige, San Haisheng, "A kind of quantum dot β-volt battery", Chinese Utility Model Patent, ZL201721850509.0, 2017.12.26.
19. San Haisheng, "A kind of radiation electrochemical radioactive isotope battery", Utility Model Patent, 202120270060.0, 2021.01.29.
20. Chen Jige, San Haisheng, "A kind of quantum dot β-volt battery", International Patent, PCT/CN2017/115954, 2017.12.13.
