致力于研究光电转化器件并设计功能化集成系统。立足工学,探索与物理学、材料学、电子科学与以及计算机科学方向的交叉,努力实现钙钛矿及其他新兴半导体基器件的应用,并实现原型机的构建。以第一或通讯作者在Nature Electronics、Nature Communications、Advanced Materials、Light: Science & Applications 等顶级期刊发表论文20余篇;授权发明专利10余项;获中国材料研究学会科学技术一等奖、江苏省物理学会科学技术一等奖、中国电子教育学会优秀博士等奖项;获第十届中国科协青年人才托举工程、江苏省双创博士、苏州大学优秀青年学者的支持。主持国家/江苏省自然科学基金青年基金,国家自然科学基金面上等项目。
E-mail: hxsun@suda.edu.cn
目标导向个人定制化培养方式,欢迎有强进取心的同学联系(特别欢迎具备非物理基础,如材料、化学、电子学、计算机科学等交叉学科背景的同学)【请附上简介及个人职业倾向(学术?国公?私企?)】
近5年发表的代表性论著:
[1]Linqi Guo, Haoxuan Sun*, Siping Yang, Chi Zhang, Liangliang Min, Abd Rashid bin Mohd Yusoff*, Liang Li*. High-Precision In-Sensor Computing Reaching Up to 10 Bits. Advanced Materials, 2026, https://doi.org/10.1002/ adma.202519096.
[2]Haoxuan Sun, Chen Li, Liang Li*, Xiang Zhang, Jiajun Luo, Nur Najihah binti Ahmad Rasid, Nur Wardina Syahirah binti Mohamad Fadil, Maria Vasilopoulou, Abd Rashid bin Mohd Yusoff*. The development of customized perovskite photodetectors. Nature Electronics, 2025, 8:1170.
[3]Yicheng Zhou, Haoxuan Sun*, Linqi Guo, Siping Yang, Liangliang Min, Meng Wang, Fengren Cao, Liang Li*. Full-Color Pixel with Only a Single Perovskite Photodiode.Advanced Materials, 2025, 37(27): 2502889.
[4]Shan Gan, Haoxuan Sun*, Min Wang, Da Dou, Siyang Zhang, Chen Li, Liang Li*. Controlling high-concentration precursor crystallization to minimize photon loss in bifacial perovskite solar cells, 2025, 70(16):2565.
[5]Liangliang Min, Haoxuan Sun*, Linqi Guo, Meng Wang, Fengren Cao, Jun Zhong, Liang Li*. Frequency-selective perovskite photodetector for anti-interference optical communications. Nature Communications, 2024, 15(1): 2066.
[6]Liangliang Min, Yicheng Zhou, Haoxuan Sun*, Linqi Guo, Meng Wang, Fengren Cao, Wei Tian*, Liang Li*. Carrier dynamic identification enables wavelength and intensity sensitivity in perovskite photodetectors. Light: Science & Applications, 2024, 13(1): 280.
[7]Liangliang Min, Haoxuan Sun*, Linqi Guo, Yicheng Zhou, Meng Wang, Fengren Cao, Liang Li*. Pyroelectric-accelerated perovskite photodetector for picosecond light detection and ranging. Advanced Materials, 2024, 36(26): 2400279.
[8]Linqi Guo, Haoxuan Sun*, Liangliang Min, Meng Wang, Fengren Cao, Liang Li*. Two-terminal perovskite optoelectronic synapse for rapid trained neuromorphic computation with high accuracy. Advanced Materials, 2024, 36(27): 2402253.
[9]Chen Li, Haoxuan Sun*, Min Wang, Shan Gan, Da Dou, Liang Li*.High-performance pulse light stable perovskite indoor photovoltaics. Science Bulletin, 2024, 69(3): 334-344.
[10]Chen Li, Haoxuan Sun*, Da Dou, Shan Gan, Liang Li*.Bipolar Pseudohalide ammonium salts bridged perovskite buried interface toward efficient indoor photovoltaics. Advanced Energy Materials, 2024, 14(34): 2401883.
[11]Linqi Guo, Haoxuan Sun*, Meng Wang, Liangliang Min, Yicheng Zhou, Fengren Cao, Liang Li*. Polarization and spectrum multi-dimensional sensitive perovskite photodetectors. Advanced Optical Materials, 2024, 12(7): 2301998.
[12]Min Wang, Haoxuan Sun, Meng Wang, Linxing Meng, Liang Li*. Uracil induced simultaneously strengthening grain boundaries and interfaces enables high-performance perovskite solar cells with superior operational stability. Advanced Materials, 2024, 36(2): 2306415.
[13]Haoxuan Sun,Yicheng Zhou,Liang Li*.Miniature integrated spectrometers towards high-performance and cost-effective.Light: Science & Applications. 2023, 12(1): 259.
[14]Shan Gan, Haoxuan Sun*, Chen Li, Da Dou, Liang Li*. Bifacial perovskite solar cells: a universal component that goes beyond albedo utilization. Science Bulletin, 2023, 68(19): 2247-2267.
[15]Da Dou, Haoxuan Sun*, Chen Li, Shan Gan, Liang Li*.Perovskite-based indoor photovoltaics and their competitors. Advanced Functional Materials, 2023, 34(13): 2314398.
[16]Yicheng Zhou, Haoxuan Sun*, Linqi Guo, Liangliang Min, Meng Wang, Liang Li*. Emerging computational micro-spectrometers — from complex system integration to simple in situ modulation. Small Methods, 2023, 7(11): 2300479.
[17]Chen Li, Haoxuan Sun*, Shan Gan, Da Dou, Liang Li*.Perovskite single crystals: physical properties and optoelectronic applications. Materials Futures, 2023, 2(4): 42101.
[18]Linqi Guo#, Haoxuan Sun#*, Min Wang, Meng Wang, Liangliang Min, Fengren Cao, Wei Tian, Liang Li*. A single-dot perovskite spectrometer. Advanced Materials, 2022, 34(33): 2200221.
[19]Yongliang Li, Haoxuan Sun*, Zhen Li, Min Wang, Linqi Guo, Liangliang Min, Fengren Cao, Yeqiang Tan*, Liang Li*.Electrospun perovskite nano-network for flexible, near-room temperature, environmentally friendly and ultrastable light regulation. Journal of Materials Science & Technology, 2022, 130(10): 35-43.
[20]Min Wang, Haoxuan Sun, Linxing Meng, Meng Wang, Liang Li*.A universal strategy of intermolecular exchange to stabilize α-FAPbI3 and manage crystal orientation for high-performance humid-air-processed perovskite solar cells. Advanced Materials, 2022, 34(23): 2200041.
[21]Min Wang, Haoxuan Sun, Meng Wang, Liang Li*.Understanding the “double-edged-sword” effect of dimethyl sulfoxide to guide the design of highly efficient perovskite solar cells in humid air. Nano Today,2022,42:101371.
[22]Meng Wang, Haoxuan Sun, Fengren Cao, Wei Tian, Liang Li*. Moisture-triggered self-healing flexible perovskite photodetectors with excellent mechanical stability. Advanced Materials, 2021, 33(16): 2100625.
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