Article Synopsis
- The study focuses on creating a Z-scheme heterostructure that enhances photocatalytic water splitting for hydrogen production.
- Researchers successfully designed this structure using sulfur vacancies-rich ZnInS and MoSe, incorporating Mo-S bonds and an internal electric field to improve charge transfer efficiency.
- The optimized photocatalyst achieved a remarkable hydrogen evolution rate of 63.21 mmol∙g·h and a quantum yield of 76.48% under specific light conditions, significantly outperforming the original material.
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Article Abstract
Construction of Z-scheme heterostructure is of great significance for realizing efficient photocatalytic water splitting. However, the conscious modulation of Z-scheme charge transfer is still a great challenge. Herein, interfacial Mo-S bond and internal electric field modulated Z-scheme heterostructure composed by sulfur vacancies-rich ZnInS and MoSe was rationally fabricated for efficient photocatalytic hydrogen evolution. Systematic investigations reveal that Mo-S bond and internal electric field induce the Z-scheme charge transfer mechanism as confirmed by the surface photovoltage spectra, DMPO spin-trapping electron paramagnetic resonance spectra and density functional theory calculations. Under the intense synergy among the Mo-S bond, internal electric field and S-vacancies, the optimized photocatalyst exhibits high hydrogen evolution rate of 63.21 mmol∙g·h with an apparent quantum yield of 76.48% at 420 nm monochromatic light, which is about 18.8-fold of the pristine ZIS. This work affords a useful inspiration on consciously modulating Z-scheme charge transfer by atomic-level interface control and internal electric field to signally promote the photocatalytic performance.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8257585 | PMC |
| http://dx.doi.org/10.1038/s41467-021-24511-z | DOI Listing |
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