学历：

2003-2007 天津大学工学学士，光电子技术科学（天津大学南开大学合办专业）

2007-2009 香港中文大学哲学硕士，电子工程专业

2011-2015 香港中文大学哲学博士，电子工程专业

研究方向：

基于钙钛矿、量子点、第三代半导体等新型半导体材料的探测、发光和光伏器件，主要方向包括新型紫外光电探测器，可穿戴生物医疗光电传感器件，机器学习指导光电器件设计等。

主讲课程：

纳米材料与器件前沿讲座（本科生课）主讲

芯片世界的创新启蒙（本科生课）共同授课

成果奖励：

厦门大学电子科学与技术学院青年教师教学技能比赛二等奖（2022）

福建省C类高层次人才（2023）

RSC Nanoscale 2023年新锐科学家

学术兼职：

担任Light: Science & Applications, Materials Today, Small, Inorganic Chemistry，Journal of Materials Chemistry C, The Journal of Physical Chemistry Letters, Nanoscale, Optics Express, Advanced Materials Interfaces, Small Structures等著名杂志审稿人

课题项目：

1. 高性能准二维钙钛矿光电探测器及其稳定性机制研究，福建省自然科学基金（面上）项目，2024.11−2027.11，主持

2. 国家重点研发计划“Mini/Micro LED直显屏超高清显示NQI关键技术集成应用示范”项目“Mini/Micro LED效率衰退机理及加速寿命试验方法研究”课题，子课题负责人，2022.10−2025.08，主持

3.基于半导体聚合物和胶体碲化汞量子点体异质结的室温下2微米以上波段高灵敏度红外探测器, 国家自然科学基金（青年）项目，2021.01−2023.12，主持

4. 有机纳米混合材料全短波红外波段高灵敏度探测器，厦门大学青年创新一般项目，2021.01−2022.12，主持

5. 灵敏稳定的RP钙钛矿光电场效应管探测器及其系统性研究，厦门大学2020年度校长基金，主持

代表作：

1. Lu, L., Wan, Z., Guo, Z., Luo, H., Tian, Y., Jiang, S., Yun, Y., Hu, H., Zhou, S., Chen, M.,^* Li, C., Zhang, R. (2025): Spin-Deposited Ruddlesden–Popper Polycrystalline Perovskites for Large-Area High-Sensitivity Filterless Narrowband Photodetectors with Ultrafast Response Speed, Laser Photonics Rev., 2402077.中科院一区，利用二维钙钛矿多晶薄膜实现高性能窄带光电探测器和阵列。

2. Lin, N., Liu, Z., Jiang, Z., Jiang, Y., Zhao, S., Yan, J., Jiang, S., Yun, Y., Wei, W., Li, S., Wan, Z., Du, J., Li, J., Tao, T., Huang, K.,^* Li, L.,^* Chen, M.,^* Li, C.,^* Zhang, R. (2025): A Study on Device Physics of Deep Ultraviolet Light Emitting Diodes Leveraging Machine Learning; J. Mater. Chem. C, 13, 4413-4420. 中科院二区，机器学习优化深紫外GaN LED。

3. Yun, Y., Chang, Q., Yan, J., Tian, Y., Jiang, S., Wei, W., Li, S., Guo, Y., Yin, J., Li, J., Chen, M.,^* Huang, K.,^* Li, C.,^* Zhang, R. (2025): Dimensional Engineering of Interlayer for Efficient Large-Area Perovskite Solar Cells with High Stability under ISOS-L-3 Aging Test, Sci. Adv., 11,eadp3112.中科院一区，同分异构胺盐实现钙钛矿表面可控低维钝化和高稳定性光伏模组。

4. Guo, Z., Yan, J., Zhao, S., Zhang, J., Lu, L., Yun, Y., Hu, B., Luo, H., Chen, M.,^* Huang, K.,^* Li, C.,^* Zhang, R. (2024)：Direct Observation of Suppressing Ion Migration at Surface and Buried Interface toward Stable Perovskite Solar Cells, ACS Sustain. Chem. Eng., 12, 17007–17017. 中科院一区，直接观察钙钛矿薄膜上下表面离子移动抑制作用差异。

5. Li. S., Yun, Y., Wei, W., Du, J., Jiang, S., Tian, Y., Luo, H., Huang, K., Li, C.,^* Chen, M.,^* Zhang, R. (2024): Surface Treatment Engineering Enables Highly Efficient Perovskite Light-Emitting Diodes with Significantly Enhanced Modulation Speed, ACS Photonics, 11, 4716−4724. 中科院一区，揭示表面钝化对钙钛矿LED性能和调制速度优化机制问题。

6.Wei. W., Yun, Y., Li, S., Jiang, Z., Jiang, S., Du, J., Tian, Y., Luo, H., Li, J., Huang, K., Chen, M.,^* Li, C.,^* Zhang, R. (2024): Efficient Perovskite based Near-Infrared Micro Light-Emitting Diode and Size-Effect Analysis, IEEE Electron Device Lett., DOI: 10.1109/LED.2024.3434727. 电子类顶刊，利用光刻方法制备高性能钙钛矿Micro-LED.

7. Jiang, S., Wei, W., Li, S., Tian, Y., Yun, Y., Chen, M.,^* Huang, K.,^* Li, C.,^* Zhang, R.^* (2024): Perovskite/GaN-Based Light-Modulated Bipolar Junction Transistor for High Comprehensive Performance Visible-Blind Ultraviolet Photodetection, ACS Photonics, 11, 3026−3036. 中科院一区，内页封面文章，钙钛矿和第三代半导体结合实现高性能新型光调制双极性晶体管光电探测器件。

8. Zhao, S., Wang, J., Guo, Z., Luo, H., Lu, L., Tian, Y., Jiang, Z., Zhang, J., Chen, M.,^* Li, L.,^* Li, C.^* (2024): Exploring Device Physics of Perovskite Solar Cell via Machine Learning with Limited Samples, J. Energy Chem., 94, 441−448. 中科院一区，机器学习优化钙钛矿太阳能电池。

9. Luo, H., Lu, L., Zhang, J., Yun, Y., Jiang, S., Tian, Y., Guo Z., Zhao, S., Wei, W., Li, W., Hu, B., Wang, R., Li, S., Chen, M.,^* Li, C.^* (2024): In Situ Unveiling of the Resistive Switching Mechanism of Halide Perovskite-Based Memristors, J. Phys. Chem. Lett., 15, 2453−2461. 中科院二区，原位表征钙钛矿忆阻器。

10. Jiang, Z., ^† Jiang, Y.,^† Chen, M.,^† Li, J.,^† Li, P., Chen, B., Zhao, S., Wang, J., Jiang, S., Cai, M., Li, L.^* Li, C.,^* Huang, K.,^* Lu, W., Kang, J., Zhang, R.,^* (2023), Advanced Design of a III‐Nitride Light‐Emitting Diode via Machine Learning, Laser Photonics Rev., 17, 2300113. ^†Equal Contribution. 中科院一区, 内页封面文章，机器学习优化氮化镓LED。

11. Zhang, J., Hu, B., Guo, Z., Luo, H., Wang, R., Li, M., Chen, M.,^* Li, C.^* (2023): Zr-Metal-Organic Framework based Cross-Layer-Connection Additive for Stable Halide Perovskite Solar Cells, Appl. Surf. Sci, 628, 157339. 中科院一区，MOF优化钙钛矿太阳能电池。

12. Tian, Y., Luo, H., Chen, M.,^* Li, C,^* Kershaw, S. V.,^* Zhang, R., Rogach, A. L. (2023): Mercury chalcogenide colloidal quantum dots for infrared photodetection: from synthesis to device applications, Nanoscale, 15, 6476−6504. 中科院二区，硫汞系红外探测器综述，RSC Nanoscale 2023新锐科学家专辑。

13. Li, W., Wu, Q., Lu, L., Tian, Y., Luo, H., Yun, Y., Jiang, S., Chen, M.,^* Li, C.^* (2023): Molecular Engineering for Sensitive, Fast and Stable Quasi-Two-Dimensional Perovskite Photodetectors, J. Mater. Chem. C, 11, 3314−3324. 中科院二区，分子工程实现高性能准二维钙钛矿光电探测器。

14. Hu, B., Zhang, J., Guo, Z., Lu, L., Li, P., Chen, M.,^* Li, C.^* (2022): Manipulating Ion Migration and Interfacial Carrier Dynamics via Amino Acid Treatment in Planar Perovskite Solar Cells, ACS Appl. Mater. Interfaces, 14, 15840−15848. 中科院一区，氨基酸优化钙钛矿太阳能电池。

15. Chen, M.,^* Lu, L., Yu, H., Li, C., Zhao, N.^* (2021): Integration of Colloidal Quantum Dots with Photonic Structures for Optoelectronic and Optical Devices, Adv. Sci., 8, 2101560. 中科院一区，量子点和光学结构结合优化光电器件综述。

16. Dong, Y.,^† Chen, M.,^† Yiu, W. K., Zhu, Q., Zhou, G., Kershaw, S. V., Ke, N., Wong, C. P., Rogach, A. L., Zhao, N. (2020): Solution Processed Hybrid Polymer: HgTe Quantum Dot Phototransistor with High Sensitivity and Fast Infrared Response up to 2400 nm at Room Temperature. Adv. Sci., 7, 2000068. ^†Equal Contribution. 中科院一区，有机半导体/量子点体异质结光电晶体管实现室温下高性能红外探测。

17. Zhu, B., Chen, M.,^* Zhu, Q., Zhou, G., Abdelazim, N. M., Zhou, W., Kershaw, S. V., Rogach, A. L., Zhao, N.^* and Tsang, H. K.^* (2019): Integrated Plasmonic Infrared Photodetector Based on Colloidal HgTe Quantum Dots. Adv. Mater. Technol. 4, 1900354. 中科院二区，量子点表面等离子体波导集成红外探测芯片。

18. Chen, M., Lu, H., Abdelazim, N. M., Zhu, Y., Wang, Z., Ren, W., Kershaw, S. V., Rogach, A. L. and Zhao, N. (2017): Mercury Telluride Quantum Dot Based Phototransistors Enabling High-Sensitivity Room-Temperature Photodetection at 2000 nm. ACS Nano 11, 5614−5622.中科院一区，量子点光电晶体管实现室温下高性能红外探测。

19. Chen, M., Shao, L., Kershaw, S. V., Yu, H., Wang, J., Rogach, A. L. and Zhao, N. (2014): Photocurrent Enhancement of HgTe Quantum Dot Photodiodes by Plasmonic Gold Nanorod structures. ACS Nano 8, 8208−8216. 中科院一区，表面等离子体金纳米棒结构实现量子点红外探测器性能增强。

20. Chen, M., Yu, H., Kershaw, S. V., Xu, H., Gupta, S., Hetsch, F., Rogach, A. L. and Zhao, N. (2014): Fast, Air-Stable Infrared Photodetectors based on Spray-Deposited Aqueous HgTe Quantum Dots. Adv. Funct. Mater. 24, 53−59. 中科院一区，喷涂工艺制备高响应速度量子点红外探测器。