文龙现为 暨南大学纳米光子学研究院 教授，博士生导师，广东省杰出青年基金获得者，广东省企业科技特派员。 2013 年毕业于中科院固体物理研究所获博士学位，随后加入中科院苏州纳米所从事博士后研究工作， 2018 年加入暨南大学至今。长期从事微纳半导体器件和纳米光学方面研究，包括 Ⅲ-Ⅴ 族化合物功率及光电器件、硅基光探测器、硅基调制器等。近年来面向硅基光电集成和片上光学检测应用，聚焦于纳米光学与半导体器件的功能化、片上化集成，如可直接电读出的光学传感器和片上光谱器件等。研究成果入选中国光学十大进展（应用研究类），并被 Nanotech web 、中国科学报、中国光学期刊网等媒体报道。承担项目包括国家自然科学基金 3 项，广东省杰出青年项目、广东省国际合作项目以及多个省部级科研项目；参与国家重点研发项目 1 项；同时与企业开展技术合作，获批多个创新创业类人才项目及技术合作攻关项目。在国际主流 SCI 期刊 Light:Science & Application, Advanced Materials, ACS Nano ， Laser & Photonics Reviews 等发表论文 50 余篇，总引用超过 1000 次，受 Springer 杂志社邀请撰写多个英文著作章节。

2004-2008 ，南昌大学，物理系，应用物理学微电子方向，学士

2008-2013 ，中国科学院固体物理研究所，半导体材料与器件，博士

2013-2016 ， 中国科学院苏州纳米技术与纳米仿生研究所 ，器件部， 博士后

2016-2017 ， 中国科学院苏州纳米技术与纳米仿生研究所 ，器件部， 副研究员

2018-2020 ，暨南大学，纳米光子学研究院， 副教授

2020 至今，暨南大学，纳米光子学研究院， 教授

1 、光电子器件

2 、微纳光学

[1] L. Wen , Z . Sun, Q. Zheng, X. Nan, Z. Lou, Z. Liu, D. R. S. Cumming, B. Li and Q. Chen*. On-Chip Ultrasensitive and Rapid Hydrogen Sensing based on Plasmon-Induced Hot Electron-Molecule Interaction. Light:Science & Applications

DOI: 10.1038/s41377-023-01123-4 (2023).

[2] Q. Chen*, X. Nan, M. Chen, D. Pan, X. Yang and L. Wen ^* . Nanophotonic Color Routing, Advanced Materials 33(49): 2103815 (2021).

[3] L. Wen , L. Liang, X. Yang; Z. Liu; B. Li and Q. Chen*. Multiband and Ultrahigh Figure-of-Merit Nanoplasmonic Sensing with Direct Electrical Readout in Au-Si Nanojunctions. ACS Nano 13:6963-6972 (2019).

[4] L. Wen , Q. Chen*, X. Hu, H. Wang, L. Jin and Q. Su. Multifunctional Silicon Optoelectronics Integrated with Plasmonic Scattering Colors . ACS Nano 10, 11076 (2016).

[5] L. Wen , Y. Chen, W. Liu, Q. Su, J. Grant, Z. Qi, Q. Wang and Q. Chen*. Enhanced Photoelectric and Photothermal Responses on Silicon Platform by Plasmonic Absorber and Omni-Schottky Junction. Laser & Photonics Reviews 11, 1700059 (2017).

[6] L. Liang. X. H, L. Wen *, et al. Unity Integration of Grating Slot Waveguide and Microfluid for Terahertz Sensing. Laser & Photonics Reviews 12(11):1800078 (2018).

[7] L. Wen , X. Nan, J. Li, D. R. S. Cumming*, X. Hu* and Q. Chen*. Broad-Band Spatial Light Modulation with Dual Epsilon-Near-Zero Modes. Opto-Electronic Advances 5(6):200093 (2022).

[8] L. Wen , Y. Chen ^# , L. Liang and Q. Chen*. Hot Electron Harvesting via Photoelectric Ejection and Photothermal Heat Relaxation in Hotspots-Enriched Plasmonic/Photonic Disordered Nano-Composites . ACS Photonics 5(2): 581-591 (2018).

[9] Q. Chen*, L. Liang, Q. Zheng, Y. Zhang, and L. Wen *. On-chip Readout Plasmonic Mid-IR Gas Sensor. Opto-Electronic Advances 3(7): 190040 (2020).

[10] Q. Chen, S. Song, H. Wang, L. Liang, Y. Dong, and Long Wen *. Ultra-Broadband Spatial Light Modulation with dual-resonance coupled Epsilon-near-zero Materials. Nano Research 14 (8) :2673-2680 (2021).

[11] Y. Dong, J. Li, W. Liang, X. Nan; L. Wen *, Q. Chen*. CMOS-Compatible Broad-Band Hot Carrier Photodetection with Cu–Silicon Nanojunctions. ACS Photonics 9(11):3705-3711 (2022).

[12] L. Wen ^# , J. Li, Y. Dong, Z. Lou, Q. Chen*. High-Efficiency Narrow-Band Plasmonic Hot Electron Conversion from Nanoscale Sodium–Silicon Heterostructures. Journal of Applied Physics 2128:153103 (2020).

[13] X. Li, T, Chen, B. Zhou, G. Liu, T. Shi*, L. Wen * , H. Cao and Y. Wang. Synthesis of Si/SiO2 Core-Shell Nanowire Arrays and Broadband Anti-Reflection Effects in Diluted Si Nanowire Arrays by Adjusting Dielectric Shell Thickness. Nanotechnology 28,185402, (2017).

[14] Z. Qi, Y. Zhai, L. Wen *, Q. Wang *, Q. Chen, et al. Au nanoparticle-Decorated Silicon Pyramids for Plasmon-Enhanced Hot Electron Near-Infrared Photodetection . Nanotechnology 28, 275202, (2017).

[15] L. Wen ^# , Q. Chen*, S. Song, Y. Yu, L. Jin and X. Hu. Photon Harvesting, Coloring and Polarizing in Photovoltaic Cell integrated Color Filters : efficient energy routing strategies for power-saving displays. Nanotechnology 26:265203 (2015).

[16] L. Wen ^# , F. Sun, and Q. Chen*. Cascading Metallic Gratings for Broadband Absorption Enhancement in Ultrathin Plasmonic Solar Cells . Applied Physics Letters 104, 151106 (2014).

[17] X. Li, T. Shi, G. Liu, L. Wen * , et al. Absorption Enhancement of GaInP Nanowires by Tailoring Transparent Shell Thicknesses and Its Application in III-V Nanowire/Si Film Two-Junction Solar Cells. Optics Express 23, 25316-25328 (2015) .

[18] W. Wang, X. Li, L. Wen * , G. Liu, T. Shi et al. Optical and Electrical Simulations of Silicon Nanowire Array/Poly(3-hexylthiophene ):Phenyl-C61-Butyric Acid Methyl Ester Hybrid Solar cell. Applied Physics Letters 105, 233115 (2014).

[19] L. Wen ^# , Q. Chen*, F. Sun, S. Song, L. Jin and Y. Yu. Theoretical Design of Multi-Colored Semi-Transparent Organic Solar Cells with Both Efficient Color Filtering and Light Harvesting. Scientific Reports 4:7036 (2014).

[20] Y. Chen ^# , L. Wen ^# , X. Hu, R. Xu, Q. Chen*. Discrete Optical Field Manipulation by Ag-Al Bilayer Gratings for Broadband Absorption Enhancement in Thin-Film Solar Cells . Plasmonics 13(5): 1603-1613 (2017).

[21] Z. Sun, Y. Zhong, Y. Dong, Q. Zheng, Xi. Nan, Z. Liu, L. Wen *; Q. Chen*. Plasmonic Near-Infrared Photoconductor Based on Hot Hole Collection in the Metal-Semiconductor-Metal Junction. Molecules 27(20): 6922 (2022).

[22] L. Wen ^# and Q. Chen*. Ultra-thin continuous lossy metal film for broad-band light absorption and hot electron collection . Journal of Photonics for Energy 6, 042503 (2016).

[23] Q. Chen*, X. Hu, L. Wen , Y. Yu, D. R. S. Cumming. Nanophotonic Image Sensor , Small 6, 042503 (2016).

[24] L. Wen ^# , X. Li, Z. Zhao S. Bu and Y. Wang*. Theoretical Consideration of III-V Nanowire/Si Triple Junction Solar Cells . Nanotechnology 23, 505202 (2012).

[25] L. Wen ^# , Z. Zhao, X. Li* and Y. Wang. Theoretical Analysis and Modeling of Light Trapping in High-Efficiency GaAs Nanowire Array Solar Cells . Applied Physics Letters 99, 143116 (2011).