Phosphorization-Induced “Fence Effect” on the Active Hydrogen Species Migration Enables Tunable CO2 Hydrogenation Selectivity

Phosphorization-Induced “Fence Effect” on the Active Hydrogen Species Migration Enables Tunable CO2 Hydrogenation Selectivity

Incorporating phosphorus (P) into the active metals of a catalyst is an effective strategy to enhance the catalytic performance. However, the mechanisms underlying the influence of the introduced phosphorus species on catalytic performance remain largely unknown. Herein, we observe a pronounced shif...

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Veröffentlicht in:ACS catalysis 2024-06, Vol.14 (11), p.8592-8601
Hauptverfasser: Wu, Chunpeng, Shen, Jiahui, An, Xingda, Wu, Zhiyi, Qian, Shuairen, Zhang, Shumin, Wang, Zhiqiang, Song, Bin, Cheng, Yi, Yan, Binhang, Sham, Tsun-Kong, Zhang, Xiaohong, Li, Chaoran, Feng, Kai, He, Le
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container_end_page 8601
container_issue 11
container_start_page 8592
container_title ACS catalysis
container_volume 14
creator Wu, Chunpeng
Shen, Jiahui
An, Xingda
Wu, Zhiyi
Qian, Shuairen
Zhang, Shumin
Wang, Zhiqiang
Song, Bin
Cheng, Yi
Yan, Binhang
Sham, Tsun-Kong
Zhang, Xiaohong
Li, Chaoran
Feng, Kai
He, Le
description Incorporating phosphorus (P) into the active metals of a catalyst is an effective strategy to enhance the catalytic performance. However, the mechanisms underlying the influence of the introduced phosphorus species on catalytic performance remain largely unknown. Herein, we observe a pronounced shift in the product selectivity of the CO2 hydrogenation from CH4 to CO upon introducing P into the Ru/SiO2 catalysts. This alteration in product selectivity is attributed to the role of introduced P as a “fence” hindering the migration of active H species. The adsorbed CO, a key intermediate species for CO2 methanation, is preferentially desorbed before H species cross the “fence” for further hydrogenation, thereby weakening the H2-assisted CO activation process and consequently inhibiting CH4 generation. Our findings provide in-depth insights into the origin of phosphorization-induced modulation of product selectivity in CO2 hydrogenation. Furthermore, the concept of phosphorization-induced “fence effect” opens a promising avenue for catalyst design in various industrial hydrogenation processes.
doi_str_mv 10.1021/acscatal.4c00742
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title Phosphorization-Induced “Fence Effect” on the Active Hydrogen Species Migration Enables Tunable CO2 Hydrogenation Selectivity
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