Man Chung Tang(邓敏聪)
邓敏聪 Man Chung Tang 清华大学,副教授 Tsinghua University,Associate Professor 邓敏聪博士的研究方向是将分子设计与器件工程相结合,开发高效、稳定的有机光电器件,研究重点涵盖有机发光二极管(OLED)、有机光伏电池(OPV)以及钙钛矿光伏电池三大领域。 在有机发光二极管研究中,他的核心工作聚焦于环金属化金 (III)、铂 (II) 发光材料,同时还致力于氘代多共振热活化延迟荧光(MR-TADF)材料及主体材料策略的研究。这些研究旨在实现窄带蓝光发射的同时,提升器件的发光效率与工作稳定性。 迄今,他已在《自然・光子学》《美国化学会志》《自然・通讯》《先进材料》《应用化学国际版》《先进科学》《先进功能材料》以及《先进光学材料》等国际顶级期刊上,发表了 50 余篇有机发光二极管相关的研究论文。 在本次报告中,他将围绕主体材料、多共振热活化延迟荧光发光材料以及磷光配合物中的亚原子级氘代效应展开论述,重点阐明氘代组分如何协同优化发光层性能,进而延长器件的使用寿命。 Dr. Man‑Chung Tang develops high‑efficiency, stable organic optoelectronic devices by integrating molecular design with device engineering, with emphasis on OLEDs, OPVs, and perovskite photovoltaics. In OLEDs, his research focuses on cyclometalated Au(III) and Pt(II) emitters, as well as deuterated multi‑resonance thermally activated delayed fluorescence (MR‑TADF)/host strategies to enhance device efficiency and operational stability while delivering narrowband blue emission. He has published more than 50 OLED‑related papers in leading international journals, including Nature Photonics, the Journal of the American Chemical Society, Nature Communications, Advanced Materials, Angewandte Chemie International Edition, Advanced Science, Advanced Functional Materials, and Advanced Optical Materials. In this presentation, he will discuss subatomic‑level deuteration effects in host materials, MR‑TADF emitters, and phosphorescent complexes, highlighting how deuterated components synergistically improve emissive‑layer performance and device lifetime. |
