2021
DOI: 10.1002/aenm.202003500
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Interfacial Chemical Bond‐Modulated Z‐Scheme Charge Transfer for Efficient Photoelectrochemical Water Splitting

Abstract: The Z‐scheme heterojunction has great potential in photoelectrochemical (PEC) water splitting due to its unique charge‐carrier migration pathway, superior carrier separation efficiency, and high redox capacity, but how to regulate the Z‐scheme charge transfer at the nanometric interface of heterostructures still remains a big challenge. Herein, InOCd bond is rationally introduced at the interface between ZnIn2S4 nanosheets and CdS nanoparticles through a facile cation exchange reaction, which successfully co… Show more

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Cited by 167 publications
(90 citation statements)
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“…The work function (ɸ) is an important nature for reflecting the escaping ability of free electron from Fermi level (E f ) to vacuum level 45 . To investigate the mechanism for the excellent photocatalytic performance of S v -ZIS/MoSe 2 , the ultraviolet photoelectron spectroscopy (UPS) with He I as the excitation source was conducted.…”
Section: Resultsmentioning
confidence: 99%
“…The work function (ɸ) is an important nature for reflecting the escaping ability of free electron from Fermi level (E f ) to vacuum level 45 . To investigate the mechanism for the excellent photocatalytic performance of S v -ZIS/MoSe 2 , the ultraviolet photoelectron spectroscopy (UPS) with He I as the excitation source was conducted.…”
Section: Resultsmentioning
confidence: 99%
“…For example, the ln‐O‐Cd bond has been introduced at the interface between CdS and ZnIn 2 S 4 nanosheets via a cation exchange method. [ 198 ] As a result, the type‐II band structure was successfully converted to Z‐scheme. To confirm the role of ln‐O‐Cd in the Z‐scheme formation, the DFT calculation has been performed.…”
Section: Theoretical Modeling Of Photocatalytic Z‐scheme Water Splittingmentioning
confidence: 99%
“…[6] However, due to its severe bulk carrier recombination, unfavorable carrier transportation, and sluggish surface OER dynamics, the PEC performance of bare ZnIn 2 S 4 photoanode is still not satisfactory.Various strategies have been developed to enhance the PEC performance of ZnIn 2 S 4 , such as morphology engineering, constructing heterojunctions, and coating surface co-catalysts, etc. [7][8][9] Among them, decorating surface cocatalysts has been considered as an effective strategy to promote surface water oxidation kinetics of pristine ZnIn 2 S 4 . However, the integration of water-oxidation cocatalysts with PEC photoanodes has been limited to metal-based materials, such Co-Pi, FeCoO x , and FeOOH.…”
mentioning
confidence: 99%