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Free radicals induced ultra-rapid synthesis of N-doped carbon sphere catalyst with boosted pyrrolic N active sites for efficient acetylene hydrochlorination

Yuxiang Bao, Xiuhui Zheng, Jianlin Cao, Shuo Li, Yongxiao Tuo, Xiang Feng, Mingyuan Zhu, Bin Dai, Chaohe Yang, De Chen

2022Nano Research15 citationsDOI

Abstract

Activated carbon-supported HgCl2 catalysts have seriously impeded the development of the polyvinyl chloride (PVC) industry due to the sublimation of Hg species and environmental pollution problems. Herein, the template-free and organic solvent-free strategy was devised to synthesize non-metallic based nitrogen-doped carbon (U-NC) sphere catalyst for acetylene hydrochlorination. This green strategy via ultrasonic chemistry initiates resin crosslinking reactions between aminophenol and formaldehyde resin by free radicals, leading to the ultra-rapid formation of U-NC with remarkably high pyrrolic N content in only 5 min. This U-NC catalyst exhibited an outstanding space-time-yield (1.6 gVCM·gcat−1·h−1), even comparable to the reported metallic catalyst. By combining kinetic analysis, advanced characterizations, and density functional theory, it is found that the amount of pyrrolic N is in linear with C2H2 conversion, and pyrrolic N in U-NC can effectively improve acetylene hydrochlorination performance by mediating HCl adsorption. This work sheds new light on rationally constructing metal-free catalyst for acetylene hydrochlorination.

Topics & Concepts

AcetyleneCatalysisChemistryRadicalAdsorptionPhotochemistryOrganic chemistryInorganic chemistryCatalytic Processes in Materials ScienceLayered Double Hydroxides Synthesis and ApplicationsAdvanced Photocatalysis Techniques
Free radicals induced ultra-rapid synthesis of N-doped carbon sphere catalyst with boosted pyrrolic N active sites for efficient acetylene hydrochlorination | Litcius