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Xiaoming Wen
Researcher at Swinburne University of Technology
Publications - 183
Citations - 8303
Xiaoming Wen is an academic researcher from Swinburne University of Technology. The author has contributed to research in topics: Perovskite (structure) & Photoluminescence. The author has an hindex of 43, co-authored 174 publications receiving 6014 citations. Previous affiliations of Xiaoming Wen include University of New South Wales & Imperial College London.
Papers
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Journal ArticleDOI
Universal passivation strategy to slot-die printed SnO 2 for hysteresis-free efficient flexible perovskite solar module
Tongle Bu,Jing Li,Fei Zheng,Weijian Chen,Xiaoming Wen,Zhiliang Ku,Yong Peng,Jie Zhong,Yi-Bing Cheng,Yi-Bing Cheng,Fuzhi Huang +10 more
TL;DR: A universal potassium passivation strategy is developed to improve the quality of slot-die printed tin oxide electron transport layers and demonstrate highly efficient and hysteresis-free flexible devices.
Journal ArticleDOI
Temperature-Dependent Fluorescence in Carbon Dots
TL;DR: In this article, temperature-dependent spectroscopic results were presented to shed some light on the presently unclear fluorescence mechanism of carbon dots, and it was shown that carbon dots exhibit similar temperature behavior as metallic quantum dots (nanoclusters) but are different from inorganic semiconductor quantum dots.
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Unravelling charge carrier dynamics in protonated g-C3N4 interfaced with carbon nanodots as co-catalysts toward enhanced photocatalytic CO2 reduction: A combined experimental and first-principles DFT study
Wee-Jun Ong,Lutfi Kurnianditia Putri,Yoong Chuen Tan,Lling-Lling Tan,Neng Li,Yun Hau Ng,Xiaoming Wen,Siang-Piao Chai +7 more
TL;DR: In this paper, a metal-free zerodimensional/two-dimensional carbon nanodot (CND)-hybridized protonated g-C3N4 (pCN) (cND/pCN-3) heterojunction photocatalysts were constructed by means of electrostatic attraction.
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Hole Transport Layer Free Inorganic CsPbIBr2 Perovskite Solar Cell by Dual Source Thermal Evaporation
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Acoustic-optical phonon up-conversion and hot-phonon bottleneck in lead-halide perovskites.
Jianfeng Yang,Xiaoming Wen,Xiaoming Wen,Hongze Xia,Rui Sheng,Qingshan Ma,Jincheol Kim,Patrick C. Tapping,Takaaki Harada,Tak W. Kee,Fuzhi Huang,Yi-Bing Cheng,Martin A. Green,Anita Ho-Baillie,Shujuan Huang,Santosh Shrestha,Robert Patterson,Gavin Conibeer +17 more
TL;DR: A stronger phonon bottleneck effect in hybrid perovskites than in their inorganic counterparts is shown, which suggests a new and general method for achieving long-lived hot carriers in materials.