Twin S-Scheme g-C3N4/CuFe2O4/ZnIn2S4 Heterojunction with a Self-Supporting Three-Phase System for Photocatalytic CO2 Reduction: Mechanism Insight and DFT Calculations
文献类型: 外文期刊
作者: Liu, Dongdong 1 ; Jiang, Lipeng 1 ; Chen, Dengqian 1 ; Hao, Zhengkai 1 ; Deng, Bowen 1 ; Sun, Yunyun 2 ; Liu, Xin 3 ; Jia, Boyin 4 ; Chen, Limei 1 ; Liu, Huitao 2 ;
作者机构: 1.Jilin Agr Univ, Coll Engn & Technol, Changchun 130118, Peoples R China
2.Jilin Acad Agr Sci, Inst Agr Resources & Environm, Changchun 130033, Peoples R China
3.Harbin Univ Sci & Technol, Sch Elect & Elect Engn, Key Lab Engn Dielect & Applicat, Minist Educ, Harbin 150080, Peoples R China
4.Jilin Agr Univ, Coll Anim Med, Changchun 130118, Peoples R China
关键词: g-C3N4/CuFe2O4/ZnIn2S4 photocatalyst; twin S-scheme heterojunction; self-supporting three-phase system; photocatalytic CO2 reduction; DFT calculations
期刊名称:ACS CATALYSIS ( 2022影响因子:12.9; 五年影响因子:13.3 )
ISSN: 2155-5435
年卷期: 2024 年 14 卷 7 期
收录情况: SCI
摘要: The use of photocatalytic solar energy to drive CO2 reduction is beneficial for addressing fossil fuel shortages and environmental pollution issues. We synthesized a twin S-scheme g-C3N4/CuFe2O4/ZnIn2S4 heterojunction, which was used to construct a self-supporting three-phase system for photocatalytic CO2 reduction. Two built-in electric fields in this heterojunction induced effective migration of photogenerated carriers, resulting in a wide light response range and strong oxidation ability. This twin S-scheme photocatalytic system without a sacrificial agent had high CH4 selectivity (96.8%) and surprise production rate of CH4 (267.4 mu mol g(-1) h(-1)), and still maintained an excellent cycle rate (249-267.4 mu mol g(-1) h(-1)) during five cycles. In addition, g-C3N4/CuFe2O4/ZnIn2S4 heterojunction possessed both hydrophilicity and hydrophobicity, which achieved an efficient transformation of CO2 into CH4 by controlling interface wettability. g-C3N4 as a hydrophobic layer promoted CO2 mass transfer to achieve the enrichment of CO2 on the heterojunction surface; ZnIn2S4 as a hydrophilic layer could well adsorb H2O, which was further oxidized by the photogenerated holes into many protons (H+). Finally, DFT calculations found that Fe-N bonds located between g-C3N4 and CuFe2O4 played a crucial role during the photocatalytic CO2 reduction. They served as a bridge for electron transfer to induce the bending adsorption of CO2, which enhanced the adsorption of *CO and stabilization of *H.
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