教师队伍
光电成像与信息工程研究所(按姓名拼音排序)
李子园
性别:女
职称:预聘副教授
学历:博士研究生
所在学科:光学工程
研究方向:光电探测与成像,III-V族半导体微纳器件,微纳加工
教师介绍
1个人简介
李子园,女,1987年5月出生于湖南,博士。2009年于2024白菜网址官网大全光电工程系获得学士学位;2013年于澳大利亚新南威尔士大学工程与信息技术学院获得博士学位;2014-2019年于澳大利亚国立大学电子材料工程系担任工程师并于2019-2022年担任澳大利亚研究理事会Discovery Early Career Research Award (DECRA) Fellow。2022年9月起就职于003全讯白菜,任预聘副教授及博导。长期在半导体光电器件和微纳加工技术等领域从事教学和科研工作,主要研究方向包括III-V族半导体新型微纳光电器件(如光电探测器、太阳能电池、发光二极管和激光器)、红外光电探测与成像、等离子纳米天线/超表面结构片上集成等方面。曾主持澳大利亚研究理事会人才创新项目1项。发表SCI期刊论文57篇,其中19篇以第一/通讯作者发表在Advanced Functional Materials、Nano Energy、Nano Letters等高水平期刊上,SCI他引635次。撰写2部英文著作部分章节,获批3项中国发明专利,重要国际会议受邀报告3次,包括国际超材料、光子晶体和等离子体学会议(META-2019)、环太平洋先进材料与加工国际会议(PRICM-10)和国际光伏科学与工程会议(PVSEC-31)等,并担任2019年国际材料研究学会联合会亚洲国际会议(IUMRS-ICA)分会主席。
2研究领域
1. III-V族半导体新型微纳光电器件;
2. 红外光电探测与成像;
3. 等离子纳米天线/超表面结构片上集成。
3学术兼职
1. 电气电子工程师学会(IEEE)高级会员,中国光学学会高级会员;
2. 多个高水平期刊审稿人;
3. IEEE纳米技术理事会堪培拉地区主席(2018-2019;2022);
4. IEEE光子学会和电子器件协会堪培拉地区主席(2020-2021)。
4代表性学术成果
【论文】
01. 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: accepted (2023) (SCI);
02. H. T. Hattori, S. Akter, I. Al-Ani, and Z.Y. Li*, “Near Ultraviolet Photoresponse of a Silicon Carbide and Tantalum Boride Heterostructure,” IEEE Photonics Journal, DOI: 10.1109/JPHOT.2023.3246167 (2023) (SCI);
03. 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);
04. 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);
05. 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 (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. M. Morshed*, Z.Y. Li*, B. C. Olbricht, L. Fu, A. Haque, L. Li, A. A. Rifat, M. Rahmani, A. E. Miroshnichenko, and H. T. Hattori, “High Fluence Chromium and Tungsten Bowtie Nano-antennas,” Scientific Report 9: 13023 (2019) (SCI);
11. 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);
12. 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);
13. 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);
14. 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);
15. 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);
16. 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】
17. Australian Research Council Discovery Early Career Researcher Award, DE190100413, Hybrid nanowire-nanoantenna infrared photodetectors, 2019.01-2023.01, 183万元, 主持 (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)。
更新时间:2023年02月