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Title	Visible-light-driven CO₂ reduction to ethylene on CdS: Enabled by structural relaxation-induced intermediate dimerization and enhanced by ZIF-8 coating
ID_Doc	7746
Authors	Tian, FY; Zhang, HL; Liu, S; Wu, T; Yu, JH; Wang, DH; Jin, XB; Peng, C
Title	Visible-light-driven CO₂ reduction to ethylene on CdS: Enabled by structural relaxation-induced intermediate dimerization and enhanced by ZIF-8 coating
Year	2021
Published
Abstract	Visible-light-driven CO2 reduction yielding commodity chemicals such as ethylene holds tremendous potentials for achieving a carbon-neutral circular economy in the energy and chemical industry. Despite the success of electrochemical CO2 reduction, efficient and selective ethylene generation has not been achieved by photo catalytic means because the intermediate dimerization fails to occur on existing photocatalysts. Here, we first demonstrate that the presence of sulfur vacancies in CdS (S-v-CdS) lead to reduced Cd-Cd distance and charge enrichment on Cd atoms. This structural relaxation and associated electronic structure tuning endow successful CHO dimerization and hence ethylene generation. The photocatalyst can be optimized by coating S-v-CdS with ZIF-8 to form a core-shell structure, which presents further lowered energy barrier for both CO hydrogenation and *CHO dimerization. With these combined intermediate manipulation strategies, the optimized photocatalyst exhibits a record-high ethylene selectivity of 12.8 % at a production rate of 0.8 mu mol g(-1) h(-1).
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