刊名:Journal of the Taiwan Institute of Chemical Engineers
出版年:2017
出版时间:February 2017
年:2017
卷:71
期:Complete
页码:373-380
全文大小:2213 K
卷排序:71
文摘
Four Rh2O3/LaPO4 catalysts were tested in N2O decomposition and CO oxidation. Rh2O3/hexagonal LaPO4 catalysts are more active than Rh2O3/monoclinic LaPO4 catalysts. Rh2O3/hexagonal LaPO4 nanowires is better than Rh2O3/hexagonal LaPO4 nanoparticles and short nanorods. The most active catalyst has highly dispersed Rh2O3, more oxygen-adsorption capacity, and more basic sites.
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