陈鹏
微电子与光电子学系 博导
陈鹏微电子与光电子学系 博导 |
个人简历
2000年12月在港澳宝典资料大全物理系获理学博士学位,2001年至2007年历任新加坡科研局材料研究院研究员、首席科学家、新加坡国立大学电机工程系博士生导师。2008年度进入“江苏省高层次创新创业人才引进计划”获创新人才资助,2008年进入江苏省“333高层次人才培养工程”第二层次,并于2011年获“‘333人才工程'突出贡献奖”,2010年获“江苏省有突出贡献的中青年专家”称号,2011获得“中国产学研创新奖个人奖”。自1995年以来长期从事于三族氮化物半导体材料与器件研究,取得了一批世界首创、国内领先的研究成果。主持过3项、参加5项国际合作项目,2015年作为首席专家主持国家“863”重点项目“第三代半导体器件与评价技术”,另外还主持和参加多项国家“973”、“863”、国家自然基金、江苏省重点研发项目等重大研究项目。申请国际发明专利7项,6项已获授权,申请国家发明专利68件。共发表学术论文209篇,其中SCI收录183篇,其中以第一作者以及通讯作者在半导体光电子学、半导体功率电子学、半导体纳米材料与纳米技术、强注入辐射机制等研究领域发表的高水平论文40余篇,包括Advanced Materials,Advanced Optical Materials,Small,IEEE Electron Device Letters, Applied Physics Letters、IEEE Photonics Journal等论文多篇,总被引用2000余次。参与编著专著四部。 研究方向
1. 半导体微纳结构的半导体光电子学与等离激元光子学研究; 2. 氮化物半导体的固体电子学与功率电子器件研究; 3. Si衬底上的氮化物半导体材料与光电子学研究; 4. 半导体的固态照明技术研究; 5. GaN自支撑衬底同质外延技术及其器件研究。 主要课程
本科生:Semiconductor Optoelectronics 物理学的进化及量子物理突破 新生研讨课-半导体光电子材料与器件; 信息电子学前沿实验; 研究生:光电子材料与器件; Semiconductor Optoelectronics 物理学的进化及量子物理突破 代表成果
2024 1. Yuyin Li, Jing Zhou, Peng Chen *, et.al., GaN microdisks with a single porous optical confinement layer for whispering gallery mode lasing, Appl. Phys. Lett. 125, 093504 (2024) 2. Ru Xu, Peng Chen *, et.al., A lateral AlGaN/GaN Schottky barrieriode with 0.36-V turn-on voltage and 10-kV breakdown voltage by using ouble-barrier anode structure, Chip, 3, 100079 (2024) 2023 1. Yuyin Li, Peng Chen *, Xianfei Zhang, et.al., The Study on the Lasing Modes Modulated by the Dislocation Nanomaterials, 13, 2228 (2023). 2022 (3) 1. Ru Xu , Peng Chen*, Jing Zhou, et.al., High Power Figure-of-Merit, 10.6-kV AlGaN/GaN Lateral Schottky Barrier Diode with Single Channel and Sub-100-μm Anode-to-Cathode Spacing, Small 2022, 2107301, (2022). -- The paper for the back cover. 2. Jing Zhou, Peng Chen*, Zili Xie, et.al., The Sign of Exciton-Photon Coupling in GaN-Based Triangular-like Ridge Cavity, Crystals, 12, 348, (2022). 3. Yimeng Li, Peng Chen*, Xiufang Chen*, et.al., Gate-Controlled NiO/Graphene/4H-SiC Double Schottky Barrier Heterojunction Based on a Metal-Oxide-Semiconductor Structure for Dual-Mode and Wide Range Ultraviolet Detection ACS APPLIED ELECTRONIC MATERIALS,4 (4) , pp.1807 (2022) 2021 (2) 1. Ru Xu , Peng Chen*, Menghan Liu, et.al., 3.4-kV AlGaN/GaN Schottky Barrier Diode on Silicon Substrate With Engineered Anode Structure, IEEE Electron Device Letters, Vol. 2, 208,(2021). 2. Ru Xu , Peng Chen*, Menghan Liu, et.al., 2.7-kV AlGaN/GaN Schottky barrier diode on silicon substrate with recessed-anode structure, Solid-State Electronics, 175, 107953, (2021). 2020 (6) 1. Yimeng Li, Peng Chen*, Xiufang Chen*, et.al., High-Responsivity Graphene/4H-SiC Ultraviolet Photodetector Based on a Planar Junction Formed by the Dual Modulation of Electric and Light Fields, Advanced Optical Materials,2000559, (2020). Small, 16, 1906205, (2020). IEEE Journal of the Electron Devices Society, Vol. 8, 316 (2020). J. Appl. Phys. 127, 113102 (2020). Chin. Phys. Lett. Vol. 37, No. 5, 054204 (2020). Applied Optics, Vol. 59, No. 16, 4790 (2020). 2019 (2) 1. Ningze Zhuo, Na Zhang, Peng Chen* and Haibo Wang*, Enhancement of efficiency and CCT uniformity for red phosphor thin films, red LEDs and laminated white LEDs based on near-ultraviolet LEDs using MgO nanoparticles, RSC Advances,9, 28291, (2019). 2. Ningze Zhuo, Na Zhang, Teng Jiang, Peng Chen* and Haibo Wang*, Effect of particle sizes and mass ratios of a phosphor on light color performance of a green phosphor thin film and a laminated white lightemitting diode, RSC Advances, 9, 27424, (2019). 2018 (1) 1. Jiang, Fulong; Liu, Yaying; Chen, Peng*; et al.,The Study on the Droop Effect in the InGaN/AlGaInN MQWs With Lattice-Matched AlGaN/InGaN Superlattices Barrier by Highly Excited Photoluminescence Measurementctions, IEEE PHOTONICS JOURNAL, 卷:10,期:2,文献号: 8200509,(2018). 2008-2017 (1) 1. Yang, G. F.; Chen, P.*; Wang, M. Y.; et al., Selective epitaxy of InGaN/GaN multiple quantum wells on GaN side facets, PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES Volume: 45 Pages: 61-65 Published: AUG 2012 1998-2007 (14) 1. P. Chen, A. Chen,S. J. Chua, and J. N. Tan,Growth and Optical Properties of Highly Uniform and Periodic InGaN Nanostructures, ADVANCED MATERIALS, Vol 19(13), 1707-1710, 2007 2. P. Chen, S. J. Chua, and J. N. Tan, High-density InGaN nanodots grown on pretreated GaN surfaces, APPLIED PHYSICS LETTERS, 89, 023114, 2006 3. P. Chen, S. J. Chua, Y. D. Wang, M. S. Sander, and C. G. Fonstad, InGaN Nanorings and Nanodots by Selective Area Epitaxy, APPLIED PHYSICS LETTERS, 87, 143111, 2005 4. H.W.Choi, K.N.Hui, P.Lai, P.Chen, X.H.Zhang, S.Tripathy, J.H.Teng, and S.J.Chua, Lasing in GaN microdisks pivoted on Si, JOURNAL OF APPLIED PHYSICS, 94 (7): 4702-4704, 2003 6. P. Chen*, W. Wang, and S. J. Chua and Y. D. Zheng, High-frequency capacitance–voltage measurement of plasma-enhanced chemical-vapor-deposition-grown SiO2 on GaN metal-insulatorsemiconductor structures, 7. P. Chen*, R. Zhang, Z.M. Zhao, D.J. Xi, B. Shen, Z.Z. Chen, Y.G. Zhou, S.Y. Xie, W.F. Lu, Y.D. Zheng, Growth of high quality GaN layers with AlN buffer on Si(111) substrates, 8. Chen, P*; Shen, B; Zhu, JM; et al. Microstructures of GaN buffer layers grown on Si(111) using rapic thermal process low-pressure metalorganic chemical vapor deposition, Chinese Physics Letters, Volume: 17, Issue:3, Pages:224-226 2000. 9. P. Chen*, S.Y. Xie, Z.Z. Chen, et. al. Deposition and crystallization of amorphous GaN buffer layers on Si(111) substrates, Journal of Crystal Growth, 213, 27-32, 2000 10. Chen, P*; Zhang, R; Xu, XF; et al. The oxidation of gallium nitride epilayers in dry oxygen, Applied Physics A-Materials Science & Processing, Volume: 71, Issue: , 2Pages: 191-194, 2000.
Materials Research Society Symposium Proceedings, Volume: , 512 Pages: 65-68, Published: 1998. 12. Chen Peng, Chua Soo-Jin, Miao Zhonglin and Tripathy Sudhiranjan, “Method and Structure for Fabricating III-V Nitride Layers on Silicon Substrates” Patent application filed on 2 February 2005 in US patent office, granted in 2011 (US 60/648,710; 11/344,472; US7,910,937 B2 ).
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