Gender: Female
Title: Associate Professor
Education: Doctoral student
Discipline: Optical Engineering
Research interests: Photoelectric Detection and Imaging, Semiconductor micro and Nano Devices, Micro and Nano processing
E-mail: ziyuan.li@bit.edu.cn Office Phone: None
Li Ziyuan, female, born in Hunan Province in May 1987, Doctor, pre-appointed associate professor, doctoral supervisor. In 2009, he received his bachelor degree from the Department of Optoelectronic Engineering, Beijing Institute of Technology. In 2013, he received his doctorate degree from the School of Electronics and Engineering and Information Technology, University of New South Wales, Australia. In 2014, he joined the Department of Electronic Materials Engineering at the Australian National University and was awarded the Discovery Early Career Research Award (DECRA) as a researcher. In September 2022, he started to work in the School of Optoelectronics, Beijing Institute of Technology, and was selected as a national Young talent program in 2023. He has been engaged in teaching and research work in the field of semiconductor optoelectronic devices and micro and nano processing technology for a long time, and his main research directions include new micro and nano optoelectronic devices for semiconductors, photoelectric detection and imaging, and on-chip integration of plasma nanoantennas/metasurface structures. He presided over a number of scientific research projects such as the Youth Science Foundation of the National Natural Science Foundation and the Open Fund of the National Key Laboratory of Infrared Detection. He has published more than 60 SCI papers (including 20 as the first/corresponding author in Advanced Functional Materials, Nano Energy, Nano Letters and other journals), 2 English book chapters, and applied for/approved 4 national invention patents. He has been invited to make special reports or serve as the chairman of the chapter at well-known international and domestic conferences. He taught the undergraduate International Summer School course "Micro-nano Photonics and Optoelectronics" and the graduate course "Modern Optoelectronic image Processing Methods". There are 2 doctoral students (including 1 international student) and 4 master students.
Li Ziyuan, female, born in Hunan in May 1987, Doctor, pre-appointed Associate Professor,
01. Z.Y. Li1, Z. Azimi1, Z. Li, Y. Yu, L. Huang, W. Jin, H. H. Tan, C. Jagadish, J. Wong-Leung*, and L. Fu*, “Review on III-V semiconductor nanowire array infrared photodetectors,” Nanoscale 15(23): 10033-10041 (2023) (SCI);
02. Z.Y. Li, Z. He, C. Xi, F. Zhang, L. Huang, Y. Yu, H. H. Tan, C. Jagadish, and L. Fu*, “Review on III-V semiconductor nanowire array infrared photodetectors,” Advanced Materials Technologies 8: 2202126 (2023) (SCI);
03. J. He, Z. Huang, Z.Y. Li*, W. W. Wong, Y. Yu, L. Huang, X. Li, L. Fu, H. H. Tan, C. Jagadish, and X. Yuan*, “Design of InAs nanosheet arrays for high-performance polarization-sensitive infrared photodetection,” Journal of Physics D: Applied Physics 56(1): 015105 (2023) (SCI);
04. Z.Y. Li*, L. Li, F. Wang, L. Xu, Q. Gao, A. Alabadla, K. Peng, K. Vora, H. T. Hattori, H. H. Tan, C. Jagadish, and L. Fu*, “Investigation of light–matter interaction in single vertical nanowires in ordered nanowire arrays,” Nanoscale 14(9): 3527-3536 (2022) (SCI);
05. X. Zuo, Z.Y. Li*, W. W. Wong, Y. Yu, X. Li, J. He, L. Fu, H. H. Tan, C. Jagadish, and X. Yuan*, “Design of InAs nanosheet arrays with ultrawide polarization-independent high absorption for infrared photodetection,” Applied Physics Letters 120(7): 071109 (2022) (SCI);
06. Z.Y. Li, S. Trendafilov*, F. Zhang, M. S. Allen, J. W. Allen, S. U. Dev, W. Pan, Y. Yu, Q. Gao, X. Yuan, I. Yang, Y. Zhu, A. Bhat, S. X. Peng, W. Lei, H. H. Tan, C. Jagadish, and L. Fu*, “Broadband GaAsSb Nanowire Array Photodetectors for Filter-Free Multispectral Imaging,” Nano Letters 21(17): 7388-7395 (2021) (SCI);
07. F. Zhang, X. Zhang, Z.Y. Li*, R. Yi, Z. Li, N. Wang, X. Xu, L. Li, M. Lysevych, X. Gan, Y. Lu, H. H. Tan, c. Jagadish, and L. Fu*, “A New Strategy for Selective Area Growth of Highly Uniform InGaAs/InP Multiple Quantum Well Nanowire Arrays for Optoelectronic Device Applications,” Advanced Functional Materials 32(3): 2103057 (2021) (SCI);
08. Z.Y. Li, X. Yuan, Q. Gao, I. Yang, L. Li, P. Caroff, M. Allen, J. Allen, H. H. Tan, C. Jagadish, and L. Fu*, “In situ passivation of GaAsSb nanowires for enhanced infrared photoresponse,” Nanotechnology 31(24): 244002 (2020) (SCI);
09. X. Zhang1, Z.Y. Li1, X. Yao, H. Huang, D. Wei, C. Zhou, Z. Tang, X. Yuan, P. Chen*, W. Hu, J. Zou, W. Lu*, and L. Fu, “Light Induced Positive and Negative Photoconductances of InAs Nanowires Toward Rewritable Nonvolatile Memory,” ACS Applied Electronic Materials 1(9): 1825-1831 (2019) (SCI);
10. Z.Y. Li, H. H. Tan, C. Jagadish, and L. Fu*, “III-V Semiconductor Single Nanowire Solar Cells: A Review,” Advanced Materials Technologies 1800005 (2018) (SCI);
11. Z.Y. Li, I. Yang, L. Li, Q. Gao, J. S. Chong, Z. Li, M. N. Lockrey, H. H. Tan, C. Jagadish, and L. Fu*, “Reducing Zn diffusion in single axial junction InP nanowire solar cells for improved performance,” Progress in Natural Science: Materials International 28(2): 178-182 (2018) (SCI);
12. Z. Zhong1, Z.Y. Li1, Q. Gao, Z. Li, K. Peng, L. Li, S. Mokkapati, K. Vora, J. Wu, G. Zhang, Z. Wang, L. Fu*, H. H. Tan, and C. Jagadish, “Efficiency enhancement of axial junction InP single nanowire solar cells by dielectric coating,” Nano Energy 28: 106-114 (2016) (SCI);
13. Z.Y. Li, X. Yuan, L. Fu*, K. Peng, F. Wang, X. Fu, P. Caroff, T. P. White, H. H. Tan, and C. Jagadish, “Room temperature GaAsSb single nanowire infrared photodetectors,” Nanotechnology 26(44): 445202 (2015) (SCI);
14. Z.Y. Li*, H. T. Hattori, P. Parkinson, J. Tian, L. Fu, H. H. Tan, and C. Jagadish, “A plasmonic staircase nano-antenna device with strong electric field enhancement for Surface Enhanced Raman Scattering (SERS) applications,” Journal of Physics D: Applied Physics 45: 305102 (2012) (SCI);
15. Z.Y. Li, H. T. Hattori, L. Fu, H. H. Tan, and C. Jagadish, “Merging photonic wire lasers and nano-antennas,” Journal of Lightwave Technology 29(18): 2690-2697 (2011) (SCI);
【项目、专利、专著、获奖等】
16. 国家自然科学基金委青年科学基金, 62305023, 基于III-V 族半导体纳米结构阵列的短波红外偏振探测理论与方法研究, 2024.01-2026.12, 30万元, 主持;
17. Australian Research Council Discovery Early Career Researcher Award, DE190100413, Hybrid nanowire-nanoantenna infrared photodetectors, 2019.01-2023.01, 183万元, 主持并结题 (澳大利亚人才创新项目);
18. 李茜; 李子园; 袁小明; 何军; 左鑫荣; 黄志伟; 一种砷化铟纳米结构及基于砷化铟纳米结构的红外探测器, 2022-08-30, 中国, CN202110952178.6 (专利);
19. 刘家琴; 李子园; 崔接武; 张勇; 傅岚; Hark Hoe Tan; Chennupati Jagadish; 吴玉程; 一种应用于光解水制氢的有序Pt-TiO2/InP纳米线阵列电极材料及其制备方法, 2018-12-28, 中国, ZL 2017 10110927.4 (专利);
20. Z.Y. Li, H. H. Tan, C. Jagadish, and L. Fu, in Atomic and Nano Scale Materials for Advanced Energy Conversion, Vol. 2, Wiley-VCH, Weinheim, Germany, Ch. 21: III-V compound semiconductor nanowire solar cells. (2021) (专著)。
【 Paper 】
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