Education Background
2017-2024 Ph.D., Tsinghua University
2014-2017 M. Sc., Jiangsu University
2009-2013 B. Sc., Shandong University
Work Experiences
2024-now Postdoctoral, Center for Combustion Energy, Department of Energy and Power Engineering, and Department of Engineering Mechanics, Tsinghua University
Other Professional Positions
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Research Areas and Interests
Key research areas include:
1. Flame synthesis of nanomaterials and their microscopic control;
2. Precious metal and nonmetal nanocatalysts for ammonia decomposition to hydrogen production;
3. Copper-cerium-based nanomaterials for mercury and NOx removal.
This research focuses on combining theoretical modeling, numerical simulation, and experimentation, and is dedicated to studying the preparation and mechanisms of catalysts in fields such as energy and the environment.
Honors and Awards
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Books and Patents
[1] 王书肖,李国良,游小清,邵森,吴清茹.高效抗水热和抗硫性能的脱汞催化剂及其制备方法与应用:中国,[P].2019-04-18(发明专利,授权,申请号:2019103142539)
[2] 王书肖,李国良,吴清茹,游小清,邵森.脱汞脱硝高效催化剂及其制备方法与应用:中国,[P].2019-04-18(发明专利,授权,申请号:2019103142558)
[3] 游小清,邵森,郭祺峰,王德畅.火焰合成滤纸夹持装置:中国,[P].2023-10-24(实用新型专利,申请,申请号:2023228624123)
[4] 游小清,邵森,王书肖.耐高温汞吸附剂及其制备方法:中国,[P].2023-10-24(发明专利,实质审查,申请号:2023113861722)
[5] 游小清,邵森,王德畅,郭祺峰.火焰合成产物的收集装置及方法:中国,[P].2023-10-24(发明专利,实质审查,申请号:2023113883774)
[6] 沈畅,邵森,郭祺峰,游小清.层流预混平焰燃烧器及其操作方法:中国,[P].2022-09-23(发明专利,实质审查,申请号:2022111681805)
[7] 游小清,沈畅,邵森,赵泽翌.一种多元扩散燃烧器及其操作方法:中国,[P].2023-12-01(发明专利,实质审查,申请号:2023116393885)
Journal Publications
[1] Shao, S, You, X, Li, G, Wang, S. Copper-ceria catalysts with improved water and sulfur resistance: Computational design and structural optimization [J]. Fuel, 2024, 356: 129571.
[2] Shao, S, Li, G, You, X, Wang, S. Flame-made high-capacity and high efficient nanomaterial CuOx-CeOx-WO3/TiO2 for mercury adsorption[J]. Chemical Engineering Journal, 2024, 482: 148835.
[3] Li, G, Shao, S, Wang, S, You, X, Li, J, Wu, Q, Xu, L, Wen, M, Wang, Y, & Liu, K. Flame synthesized nanoscale catalyst (CuCeWTi) with excellent Hg0 oxidation activity and hydrothermal resistance [J]. Journal of Hazardous Materials, 2021, 408: 124427.
[4] Li, G, Wu, Q, Wang, S, Li, J, You, X, Shao, S, Wen, M, Xu, L, Tang, Y, Wang, F, Wang, Y, Liu, K. Promoting SO2 resistance of a CeO2(5)-WO3(9)/TiO2 catalyst for Hg0 oxidation via adjusting the basicity and acidity sites using a CuO doping method [J]. Environmental Science & Technology, 2020, 54(3): 1889-97.
[5] Li, G, Wang, S, Wu, Q, Li, J, You, X, Shao, S, & Liu, K. Exploration of reaction mechanism between acid gases and elemental mercury on the CeO2–WO3/TiO2 catalyst via in situ DRIFTS [J]. Fuel, 2019, 239: 162-72.
