Lu Haifei
Basic Information
Optics
Professor
haifeilv@whut.edu.cn
Biography
Dr. Lu received his Ph.D. from the Department of Electronic Engineering at The Chinese University of Hong Kong in 2013, then conducted postdoctoral research at the Department of Electrical and Electronic Engineering, The University of Hong Kong from 2013 to 2015. Since 2015, he has been working at the School of Physics and Mechanics, Wuhan University of Technology. As the first author or corresponding author, he has published over 30 SCI-indexed papers in prestigious academic journals such as ACS Nano, Advanced Functional Materials, Chemical Engineering Journal, Small, Nanoscale, Journal of Lightwave Technology, Optics Letters, Optics Express, and IEEE Sensors Journal. He has filed eight Chinese national invention patents and holds one authorized U.S. patent and two authorized Chinese patents. He has led two National Natural Science Foundation of China (NSFC) projects, one provincial Natural Science Foundation project, and two industry-funded projects. Additionally, he has participated as a key member in two National Key R&D Program projects and two other national-level research initiatives.
Research Interests
Micro&Nanophotonics, Fiber optics sensing, Optoelectronic materials and devices
Publications
1. Kaiwei Zhang, Haifei Lu*, Min Li, Xiaoyan Wen, Mingyu Li, Shuo Deng, Sisi Liu, and Hongyun Gao, High-efficiency rectangular transverse air-gap metalens for visible light based on a dual-coupled PB phase, Optics Letters, 2025, 50 (6), 2101-2104
2. Miniaturized fiber optic accelerometer incorporating liquid metal as the proof mass, Chenxing Xue, Rui Zhou, Yuanjia Xia, Wei Gao, Min Li, Hongyun Gao, Xiaoyan Wen, Haifei Lu*, Guobing Chen, Desheng Chen, Optics Letters, 2025, 50 (2), 241-244
3. Effective charge collection of electron transport layers for high-performance quantum dot infrared solar cells, Meng Wang, Sisi Liu*, Aoshen Wei, Tianyu Luo, Xiaoyan Wen, Ming-Yu Li, * Haifei Lu*, ACS Applied Materials & Interfaces, 2024, 16 (19), 24572-24579
4. Heliang Wu, Zizhong Guan, Yuan Ke, Xiong Yu, Zheng Zhang, Mingyu Li, Haifei Lu*, MXene-based photoacoustic transducer with high energy conversion efficiency, Optics Letters, 2023, 48 (21), 5563-5566
5. Zizhong Guan, Xiangjie Jia, Min Li, Mingyu Li, Xiaoyan Wen, Shuo Deng, Sisi Liu, Ho-Pui Ho, Haifei Lu*, Nanoresonator Integrated Fiber Optics Sensor for Pressure Immune Temperature Sensing Application, IEEE Sensors Journal, 2023, 62 (6), 1647-1653
6. Rui Zhou; Luo Wang; Min Li; Ming-Yu Li; Xiaoyan Wen; Shuo Deng; Sisi Liu; Haifei Lu*; High performance optical fiber Fabry-Perot sensor based on a saw-tooth spectrum and its application in acoustic sensing, IEEE Sensors Journal, 2023, 23(3): 2128-2136
7. Hao Li; Zheng Yan; Min Li; Xiaoyan Wen; Shuo Deng; Sisi Liu; Wallace C. H. Choy; Lijie Li; Ming-Yu Li*; Haifei Lu*; Probing the stability of perovskite solar cell under working condition through an ultra-thin silver electrode: beyond the halide ion diffusion and metal diffusion, Chemical Engineering Journal, 2023, 485: 141405
8. Miaosen Hu, Min Li, Ming-Yu Li, Xiaoyan Wen, Shuo Deng, Sisi Liu, Haifei Lu*, Sensitivity Enhancement of 2D Material-Based Surface Plasmon Resonance Sensor with an Al–Ni Bimetallic Structure, Sensors, 2023, 23 (3), 1714
9. Luo Wang; Rui Zhou; Min Li; Ming-Yu Li; Xiaoyan Wen*; Haifei Lu* ; Asymmetric Reflection Spectrum of Fabry-Perot Interferometer and the Application in Pressure Sensing, Journal of Lightwave Technology, 2022, 40(12): 4011-4019
10. Guohui Lin; Jie Ma; Min Li; Ming-Yu Li; Haifei Lv*; Xiaoyan Wen* ; Large dynamic range in acoustic detection realized by a dual-diaphragm based sensing system with IQ-PGC phase demodulation, IEEE Sensors Journal, 2022, 22(9): 8996-9004
11. Hao Li; Zeping Li; Sisi Liu; Min Li; Xiaoyan Wen; Jihoon Lee; Shusen Lin; Ming-Yu Li*; Haifei Lu* ; High performance hybrid MXene nanosheet/CsPbBr3 quantum dot photodetectors with an excellent stability, Journal of Alloys and Compounds, 2022, 895: 162570
12. Jia Xiangjie, Hao Pengfei, Li Min, Wen Xiaoyan, Lu Haifei*, Resonance Modes and Influencing Factors of Micro Sensing Unit on Fiber End Face, Acta Optica Sinica, 2022, 42 (2), 0206005
13. Zheng Yan, Hongye Chen, Min Li, Xiaoyan Wen, Yingping Yang, Wallace CH Choy, Haifei Lu*, Observing and Understanding the Corrosion of Silver Nanowire Electrode by Precursor Reagents and MAPbI3 Film in Different Environmental Conditions, Advanced Materials Interfaces, 2021, 8 (6), 2001669
14. Yiwen Hu, Zheng Yan, Min Li, Xiaoyan Wen, Yingping Yang, Wallace CH Choy, Haifei Lu*, Observing the stability evolution of β-DMAxCs1-xPbI2Br through precursor incubation, Organic Electronics, 2020, 84, 105800
15. Pengfei Hao, Min Li, Xiaoyan Wen, Ho-Pui Ho, Haifei Lu*, Simulations of photothermal effects and thermodynamics induced by optical resonance in a fiber metallic Fabry–Perot cavity, Applied Optics, 2020, 59 (22), 6466-6475
16. Yiran Zheng, Min Li, Xiaoyan Wen, Ho-Pui Ho, Haifei Lu*, Nanostructured ZnO/Ag film prepared by magnetron sputtering method for fast response of ammonia gas detection, Molecules, 2020, 25 (8), 1899
17. Jiawei Xu, Wenjun Shi, Xiaoyan Wen, Haifei Lu*, Min Li*, Temperature-dependent anomalous dispersion of polycrystalline germanium film near absorption threshold, Materials Chemistry and Physics, 2020, 243, 122562
18. Di Zhang, Anis Allagui, Ahmed S Elwakil, Zheng Yan, Haifei Lu*, Active circuit model of low-frequency behavior in perovskite solar cells, Organic Electronics, 2020, 85, 105804
19. Hongye Chen, Min Li, Xiaoyan Wen, Yingping Yang, Daping He, Wallace CH Choy, Haifei Lu*, Enhanced silver nanowire composite window electrode protected by large size graphene oxide sheets for perovskite solar cells, Nanomaterials, 2019, 9 (2), 193
20. Haifei Lu, Xingang Ren, Dan Ouyang, Wallace CH Choy, Emerging novel metal electrodes for photovoltaic applications, Small, 2018, 14 (14), 1703140
21. Xiaolong Tan, Min Li, Norhana Arsad, Xiaoyan Wen, Haifei Lu*, An effective temperature compensation approach for ultrasonic hydrogen sensors, Review of Scientific Instruments, 2018, 89 (3)
