人物經歷
學習經歷
2004-2008,南昌大學,物理系,套用物理學微電子方向,學士
2008-2013,中國科學院固體物理研究所,半導體材料與器件,博士
工作經歷
2013-2016,中國科學院蘇州納米技術與納米仿生研究所,器件部,博士後
2016-2017,中國科學院蘇州納米技術與納米仿生研究所,器件部,副研究員
2018-2020,暨南大學,納米光子學研究院,副教授
2020-,暨南大學,納米光子學研究院,教授
研究方向
1、光電子器件
2、微納光學
主要論文
[1]L. Wen, Z. Sun, Q. Zheng, X. Nan, Z. Lou, Z. Liu,D. R. S. Cumming, B. Li and Q. Chen*. On-ChipUltrasensitive and Rapid Hydrogen Sensing based on Plasmon-Induced HotElectron-Molecule Interaction. Light: Science & ApplicationsDOI: 10.1038/s41377-023-01123-4 (2023).
[2]Q. Chen*, X. Nan, M. Chen, D. Pan, X. Yang and L. Wen. NanophotonicColor Routing, Advanced Materials 33(49): 2103815 (2021).
[3]L. Wen, L. Liang, X. Yang; Z. Liu; B. Li and Q. Chen*. Multiband andUltrahigh Figure-of-Merit Nanoplasmonic Sensing with Direct Electrical Readoutin Au-Si Nanojunctions. ACS Nano 13:6963-6972 (2019).
[4]L. Wen, Q. Chen*, X.Hu, H. Wang, L. Jin and Q. Su. MultifunctionalSilicon Optoelectronics Integrated with Plasmonic Scattering Colors.ACS Nano10, 11076 (2016).
[5]L. Wen, Y. Chen, W.Liu, Q. Su, J. Grant, Z. Qi, Q. Wang and Q. Chen*. Enhanced Photoelectric and PhotothermalResponses on Silicon Platform by PlasmonicAbsorber and Omni-Schottky Junction. Laser & Photonics Reviews11, 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 ElectronHarvesting via Photoelectric Ejection andPhotothermal Heat Relaxation in Hotspots-EnrichedPlasmonic/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 ReadoutPlasmonic 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 coupledEpsilon-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 Physics2128:153103 (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.Nanotechnology28,185402, (2017).
[14] Z. Qi, Y. Zhai, L. Wen*, Q. Wang*, Q. Chen, et al. Aunanoparticle-Decorated Silicon Pyramids for Plasmon-Enhanced Hot Electron Near-InfraredPhotodetection. Nanotechnology28, 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. Nanotechnology26:265203 (2015).
[16] L. Wen, F. Sun, and Q.Chen*. Cascading Metallic Gratings for Broadband Absorption Enhancement inUltrathin 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.OpticsExpress 23, 25316-25328 (2015).
[18] W. Wang, X. Li, L. Wen*, G. Liu, T. Shi et al. Optical and Electrical Simulations of Silicon NanowireArray/Poly(3-hexylthiophene): Phenyl-C61-ButyricAcid Methyl Ester Hybrid Solar cell.Applied Physics Letters 105, 233115 (2014).
[19] L. Wen, Q. Chen*, F. Sun, S. Song, L. Jin andY. Yu. Theoretical Design of Multi-Colored Semi-Transparent Organic Solar Cells with Both Efficient Color Filtering and Light Harvesting.ScientificReports 4:7036 (2014).
[20] Y. Chen, L. Wen, X. Hu, R.Xu, Q. Chen*. Discrete Optical Field Manipulation by Ag-Al BilayerGratings for Broadband Absorption Enhancement in Thin-Film Solar Cells.Plasmonics13(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. ZhaoS. Bu and Y. Wang*. Theoretical Consideration of III-V Nanowire/Si Triple Junction Solar Cells.Nanotechnology23, 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 SolarCells. Applied Physics Letters 99, 143116(2011).
授權專利
[1]Electric readout optical sensor,美國發明專利,已授權, US11362233B2,2022-06-14.
[2]一種光學感測器,中國發明專利,已授權,CN110346326B,2022-11-11.
[3]一種電讀出光學感測器,中國發明專利,已授權,CN109524486,2022-09-23.
[4]一種攜帶型光學氣體感測器,中國發明專利,已授權,CN111060466B,2023-01-13.
[5]一種微型光譜測試系統及測試方法,中國發明專利,已授權,CN110261333B,2022-03-25.
[6]窄帶透射濾波器及片上光譜分析與成像系統,中國發明專利,已授權,CN111141385B,2022-05-24.
[7]一種納米線雷射器及其製備方法,中國發明專利,已授權,CN109273985A,2019-01-25;
[8]基於光柵狹縫波導複合結構的感測器,中國發明專利,已授權,CN110793936B,2021-07-23.
[9]具有單片集成結構的光電收發晶片、其製作方法與套用,中國發明專利,已授權,CN112151520B,2022-12-20.
主要著作
[1]Xianguang Yang, Long Wen, and Baojun Li, Optical Sources and Waveguides Based on flexible 1D Nanomaterials. Chapter In: Advanced Nanomaterials. Advances in Material Research and Technology, Springer (2021).
[2]Shichao Song, Long Wen, Qin Chen, GrapheneComposites based Photodetectors, Chapter in GRAPHENE BASED POLYMERNANOCOMPOSITES IN ELECTRONICS, Springer, ISBN: 978-3-319-13874-9, (2015).
主要項目
[1] 國家重點研發計畫“光電子與微電子器件及集成”專項,基於混合集成的可重構近紅外多波長探測器,2019YFB2203402,2020.01至2022.12,515萬,參與(2/20),在研;
[2] 國家自然科學基金面上項目,基於非金屬等離激元材料的矽基近紅外熱載流子轉換研究,11874029,2019.01至2022.12,64萬,主持,在研;
[3] 國家自然科學基金青年項目,表面等離激元金屬納米結構光致電勢效應及其感測器套用研究,11604367,2017.01至2019.12,21萬,主持,結題;
[4] 國家自然科學基金面上項目,基於Tamm等離極化激元耦合模式的金屬-半導體-金屬熱電子光電探測器,11774099,2018.01至2021.12,22/62萬,合作,在研;
[5] 廣東省傑出青年項目,基於表面等離激元光電感測的片上檢測技術, 2022.01-2025.12, 100萬,主持,在研;
[6] 廣東省國際合作項目,基於等離激元光電轉換陣列的近紅外片上譜儀研究,2021.01-2022.12,50萬,主持,在研;
[7] 廣東省科技企業特派員項目,紅外LED晶片光萃取和光衰減機理研究及其性能增益方案,2020.10-2022.09,18萬,主持,在研;
[8] 徐州市創新創業項目,關於OLED精細金屬蒸鍍掩膜版研發與開發,2017.07至2020.06,30萬,主持,結題;
[9] 江蘇省自然科學基金青年項目,基於金屬納米結構的完美吸收體表面光電壓行為及其感測器研究,2016.01至2018.12,20萬,主持,結題;
[10] 蘇州產業技術創新專項,完美吸收型金屬納米結構的表面光電壓行為及其感測器件套用研究,2015.01至2017.12,主持,結題;
[11]國家自然科學基金面上項目,導電金屬氧化物薄膜和微納光學結構複合體系中空間電光調製技術基礎問題研究,61574158,2016.01至2019.12,80.6萬,參與(2/8),結題;
[12]英國皇家學會牛頓高級學者項目,Integrated Terahertz Sensors,11.1萬英鎊,參與,結題。
講授課程
《光電子檢測技術》、《高等光學》、《高等光子學》
社會職務