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Shuit-Tong Lee
Researcher at Soochow University (Suzhou)
Publications - 1129
Citations - 84313
Shuit-Tong Lee is an academic researcher from Soochow University (Suzhou). The author has contributed to research in topics: Silicon & Nanowire. The author has an hindex of 138, co-authored 1121 publications receiving 77112 citations. Previous affiliations of Shuit-Tong Lee include University of British Columbia & Hong Kong University of Science and Technology.
Papers
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The synthesis of multi-structured SnS nanocrystals toward enhanced performance for photovoltaic devices
Xin Guo,Hao-Jun Xie,Jiawei Zheng,Hao Xu,Qian-Kun Wang,Yan-Qing Li,Shuit-Tong Lee,Jian-Xin Tang +7 more
TL;DR: The synthesis of multi-scale SnS nanostructures with favorable fluorescence is facilely accomplished via a well-excogitated gentle process, involving simple precursors, stabilized chemical medium and primitive ligand exchange.
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Study of in-plane orientation of epitaxial AlN films grown on (111) SrTiO3
TL;DR: In this paper, the in-plane orientation of single-domain epitaxial AlN films was investigated at moderate temperatures of 270-370°C with a sharp interface and orientation relationship of [21¯1¯0]AlN∥[01¯1]STO and (0002)AlN ∥(111)STO.
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Inverted polymer solar cells integrated with small molecular electron collection layer
Ai-Li Shi,Yan-Qing Li,Zai-Quan Xu,Fu-Zhou Sun,Jian Li,Xiao-Bo Shi,Huai-Xin Wei,Shuit-Tong Lee,Satoshi Kera,Nobuo Ueno,Jian-Xin Tang +10 more
TL;DR: In this article, a small molecular electron collection layer (ECL) was integrated between indium tin oxide (ITO) cathode and the photoactive layer of blended poly(3-hexylthiophene) and [6,6]-phenyl C61 butyric acid methyl ester (P3HT:PCBM).
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Investigation of calcium as high performance cathode in small-molecule based organic light-emitting devices
TL;DR: In this article, the feasibility of using calcium as a high performance cathode in Alq3-based devices was explored by inserting a thin cesium fluoride layer at the Alq 3/Ca interface to suppress the damaging effects of Ca to the organic material.
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Enhanced electrical properties of pentacene-based organic thin-film transistors by modifying the gate insulator surface
TL;DR: In this article, a reliable surface treatment for the pentacene/gate dielectric interface was developed to enhance the electrical transport properties of organic thin-film transistors (OTFTs).