Two dimensional (2D) heterojunction based on g‐C3N4 and CuInS2(CIS) nanosheets has been successfully constructed with the assistance of biomolecules L‐cysteine. We demonstrated that a typical p–n junction charges transfer mode of CIS/PCN (proton...
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https://www.riss.kr/link?id=O117683643
Wenhua Ye ; Jisong Hu ; Xiaofeng Hu ; Wenhua Zhang ; Xinguo Ma ; Huihu Wang
2019년
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1867-3880
1867-3899
SCOPUS;SCIE
학술저널
6372-6383 [※수록면이 p5 이하이면, Review, Columns, Editor's Note, Abstract 등일 경우가 있습니다.]
0
상세조회0
다운로드다국어 초록 (Multilingual Abstract)
Two dimensional (2D) heterojunction based on g‐C3N4 and CuInS2(CIS) nanosheets has been successfully constructed with the assistance of biomolecules L‐cysteine. We demonstrated that a typical p–n junction charges transfer mode of CIS/PCN (proton...
Two dimensional (2D) heterojunction based on g‐C3N4 and CuInS2(CIS) nanosheets has been successfully constructed with the assistance of biomolecules L‐cysteine. We demonstrated that a typical p–n junction charges transfer mode of CIS/PCN (protonated g‐C3N4) can be switched to Z‐scheme transfer mode through the integration of Au by weakening the role of built‐in electric field. The morphology of CIS/Au/PCN can be well adjusted through the formation of Au−S covalent bond and the electrostatic adsorption between Au and PCN during the hydrothermal process. Furthermore, the intimate interface contact inside CIS/Au/PCN heterojunction was indeed constructed, which may promote the charges separation and transfer process at the interface as evidenced by ESR spectra and time‐resolved PL spectra. Under visible light illumination, the CIS/Au/PCN exhibited an enhanced CO (19.46 μmol/g) and CH4 (1.18 μmol/g) yield in CO2 reduction, which was about 5.04 times and 2.03 times higher than pure PCN. The composite heterojunction also showed excellent photocatalytic activity for tetracycline degradation with a 87 % degradation efficiency in 1 hour, which was 2.07 times higher than pure PCN. The experimental and theoretical calculation results demonstrated that an all‐solid‐state Z‐scheme heterojunction was formed in the CIS/Au/PCN system, which was different from the typical p–n junction charges transfer mechanism in CIS/PCN.
Photocatalysis: The traditional p–n junction charges transfer mode at the interface of CuInS2/g‐C3N4 can be switched to Z‐scheme mode in CuInS2/Au/g‐C3N4 heterostructure through Au integration by weakening the built‐in electric field and improving the interfacial bonding.
Noble‐Metal‐Free Colloidal‐Copper Based Low Overpotential Water Oxidation Electrocatalyst