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Effects of Different Copper Species on the Combustion of Dichloromethane over Cu/HZSM-5 Zeolite Nanoporous Catalysts

Yue Liu, Yanye Zhu, Wenzuo Huang, Qingji Ying, Zhongbiao Wu

2021ACS Applied Nano Materials20 citationsDOI

Abstract

This study compared the reaction behaviors of dichloromethane (DCM) catalytic combustion over Cu/HZSM-5 (H form of Zeolite Socony Mobil-5) nanoporous catalysts at different copper loadings. Among the samples investigated, Cu/HZSM-5 with 2.5 wt % Cu showed the best stability with a 90% DCM conversion at 320 °C during a 3 h reaction run. The analysis of the results showed different copper species (including cations and oxides particles) accounted for the diverse reaction behaviors observed. With a low copper loading (≤2.5 wt %), copper cations (such as isolated Cu+/Cu2+ and oxocations) were the dominant copper species, which were strongly resistant to chlorine poisoning. However, we found the continuous coking deactivation of Cu/HZSM-5 with 1 wt % Cu loading owing to its low redox capacity. With further increase in the Cu content, the proportion of bulk-like CuOx species quickly increased. During the reaction with DCM, CuOx particles were involved in a chlorination process at a bulk level with the formation of CuClx and Cux(OH)yCl crystalline phases, resulting in a rapid deactivation at the initial reaction stage. Cation-dominant copper nanomaterials are recommended for reaching a high stability in chlorinated volatile organic compound catalytic oxidation.

Topics & Concepts

CopperCatalysisNanoporousDichloromethaneZeoliteInorganic chemistryRedoxCombustionChemistryChlorineCatalytic combustionOrganic chemistrySolventCatalytic Processes in Materials ScienceCatalysis and Oxidation ReactionsEnvironmental remediation with nanomaterials