Blar i Institutt for kjemisk prosessteknologi på forfatter "Dam, Anh Hoang"
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Bimetallic Catalyst System for Steam Reforming
Dam, Anh Hoang (Doctoral thesis at NTNU;2015:339, Doctoral thesis, 2015)To improve catalytic performance of Ni supported catalysts for hydrogen production, a monolayer of a noble metal is introduced on the surface of Ni particles. A series of surface alloy M/Ni catalysts was prepared by redox ... -
Methane activation on bimetallic catalysts: properties and functions of surface Ni-Ag alloy
Dam, Anh Hoang; Wang, Hongmin; Dehghan-Niri, Roya; Yu, Xiaofeng; Walmsley, John; Holmen, Anders; Yang, Jia; Chen, De (Peer reviewed; Journal article, 2019)The paper presents a fundamental study of the properties and functions of well‐defined Ni−Ag surface alloys in methane decomposition and steam reforming, aiming at providing a better understanding of the principle for ... -
New mechanism insights into methane steam reforming on Pt/Ni from DFT and experimental kinetic study
Niu, Juntian; Wang, Yalan; Qi, Yanying; Dam, Anh Hoang; Wang, Hongmin; Zhu, Yi-An; Holmen, Anders; Ran, Jingyu; Chen, De (Peer reviewed; Journal article, 2020)In this contribution, we combine density functional theory (DFT) calculations, experimental kinetic study and DFT-assisted analysis to elucidate the impact of the interface of monolayer Pt on the Ni surface on catalytic ... -
Understanding effects of Ni particle size on steam methane reforming activity by combined experimental and theoretical analysis
Wang, Yalan; Wang, Hongmin; Dam, Anh Hoang; Xiao, Ling; Qi, Yanying; Niu, Juntian; Yang, Jia; Zhu, Yi-An; Holmen, Anders; Chen, De (Journal article, 2019)Fundamental understanding of the size-dependent activity is essential to harness powers of the nanocatalysts. Here we report an experimental and theoretical study of the Ni particle size effect on activity of steam methane ...