吳育任博士 Dr. Yuh-Renn Wu
教授, Professor
國立台灣大學
光電工程研究所和電機工程學系
Graduate Institute of Photonics and Optoelectronics and Department of Electrical Engineering, National Taiwan University
Email: yrwu @ ntu.edu.tw
Phone (O): +886-2-33669647
Fax: +1-886-2-33669647
Researcher ID: A-1052-2011
ORCID : 0000-0002-1457-3681
Scopus: 7406895528
Google Scholar: Yuh–Renn Wu
Award and Service:
2025 中國電機工程學會114年度傑出電機工程教授獎
2025 國科會 未來科技獎 (Future Tech award) on DDCC TCAD software
2024 臺灣大學勵進青年講座教授 (2024-2026) NTU Excelsior Chair Professorship
2023 台法科技獎 (France-Taiwan Scientific Prize) (國科會-法蘭西學會)
2023 國科會 未來科技獎 (Future Tech award) on QKD development
2021 電資學院學術貢獻獎
2021 科技部 未來科技獎 (Future Tech award) on OLED device
2020 科技部 未來科技獎 (Future Tech award) on Karmazon 電子好球帶系統
2015 科技部 吳大猷先生紀念獎 ( 2015 Ta-You Wu Memorial Award )
2015 NUSOD conference in Taipei, Co-chair
2019 國科會 優秀年輕學者研究計畫 (2013 NSC Junior Research Investigator Grant)
2013 國科會 優秀年輕學者研究計畫 (2013 NSC Junior Research Investigator Grant)
2022-08 – 2025-07 Chair, Graduate Institute of Photonics and Optoelectronics, NTU
2023-2024 IEEE Taipei Chapter Photonic Society Chair
2021-2022 IEEE Taipei Chapter Photonic Society Vice Chair
2019-2022 Vice Chair, Graduate Institute of Photonics and Optoelectronics
Major Research Areas:
InGaN and AlGaN-based UV and white light LEDs
Nitride-based high-power and high-frequency HEMTs: We are focusing on device modeling of AlGaN HFETs, which are applied in high-power and high-frequency areas.
II-VI and III-V wide bandgap optoelectronic devices: Device modeling of quantum well/dot light-emitting diodes, Analysis of carrier transport, emission, and absorption properties.
Carrier transport in organic/inorganic hybrid structures, including solar cells and OLEDs
2D Materials device modeling, including Graphene, MoS2, WS2, and Janus materials, etc…
LAB developed Numerical Modeling tools:
(1D-DDCC) One-dimensional Poisson, Drift-diffusion, and Schrodinger Solver: This solver can solve the Poisson-Schrodinger equation, the drift-diffusion equation, and the self-consistent equations. last update (01-03-2019)
(2D-DDCC) Two-Dimensional, Poisson, Drift-diffusion, Schrodinger, and thermal Solver & Ray Tracing Method: This solver can solve the two-dimensional Poisson, drift-diffusion, and thermal equations self-consistently. Then, solve the 2D Schrodinger Equation and the Monte Carlo Ray Tracing techniques. last update (01-03-2019)
(3D-DDCC) Three-dimensional FEM Poisson, Drift-diffusion, and thermal Solver + 3D Schrodinger Equation solver. last update (01-03-2019) : The 3D mesh is Based on gmsh