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Bingbing Chen
Researcher at Dalian University of Technology
Publications - 69
Citations - 3042
Bingbing Chen is an academic researcher from Dalian University of Technology. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 23, co-authored 49 publications receiving 1848 citations.
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Journal ArticleDOI
Atomic-layered Au clusters on α-MoC as catalysts for the low-temperature water-gas shift reaction
Siyu Yao,Xiao Zhang,Wu Zhou,Wu Zhou,Rui Gao,Wenqian Xu,Yifan Ye,Lili Lin,Xiaodong Wen,Ping Liu,Bingbing Chen,Ethan J. Crumlin,Jinghua Guo,Zhijun Zuo,Weizhen Li,Jinglin Xie,Li Lu,Christopher J. Kiely,Lin Gu,Chuan Shi,José A. Rodriguez,Ding Ma +21 more
TL;DR: A catalyst composed of layered gold clusters on molybdenum carbide (MoC) nanoparticles to convert CO through its reaction with water into H2 and CO2 at temperatures as low as 150°C is developed.
Journal ArticleDOI
A stable low-temperature H2-production catalyst by crowding Pt on α-MoC.
Xiao Zhang,Xiao Zhang,Mengtao Zhang,Yuchen Deng,Mingquan Xu,Luca Artiglia,Wen Wen,Rui Gao,Rui Gao,Bingbing Chen,Siyu Yao,Xiaochen Zhang,Mi Peng,Jie Yan,Aowen Li,Zheng Jiang,Xingyu Gao,Sufeng Cao,Ce Yang,Ce Yang,A. Jeremy Kropf,Jinan Shi,Jinglin Xie,Mingshu Bi,Jeroen A. van Bokhoven,Jeroen A. van Bokhoven,Yong-Wang Li,Xiaodong Wen,Maria Flytzani-Stephanopoulos,Chuan Shi,Wu Zhou,Ding Ma +31 more
TL;DR: In this article, a low-temperature water-gas shift (WGS) catalyst is achieved by crowding platinum atoms and clusters on α-molybdenum carbide; the crowding protects the support from oxidation that would cause catalyst deactivation.
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Catalytic removal of formaldehyde at room temperature over supported gold catalysts
TL;DR: In this article, two kinds of Au/CeO2, prepared by deposition-precipitation (DP) using urea (U) or NaOH (N) as precipitants were investigated as catalysts for HCHO oxidation.
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Investigation into the Catalytic Roles of Various Oxygen Species over Different Crystal Phases of MnO2 for C6H6 and HCHO Oxidation
TL;DR: Although manganese oxide (MnO2) exhibits excellent activity in various oxidation reactions, especially for volatile organic compound oxidation, the origin of the catalytic activity remains ambiguou... as discussed by the authors.
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FeOx-supported gold catalysts for catalytic removal of formaldehyde at room temperature
TL;DR: In this article, the applied calcination temperature was found to greatly influence both the chemical properties and microstructure of the catalysts, and it was shown that lower calcinations temperature improves the reducibility of catalysts and favors the presence of surface hydroxyl groups.