Full-Space Electric Field in Mo-Decorated ZnInS Polarization Photocatalyst for Oriented Charge Flow and Efficient Hydrogen Production.

Adv Mater

Hefei National Research Center for Physical Sciences at the Microscale, USTC Center for Micro- and Nanoscale Research and Fabrication, University of Science and Technology of China, Hefei, Anhui, 230026, China.

Published: August 2024

Integration of photocatalytic hydrogen (H) evolution with oxidative organic synthesis presents a highly attractive strategy for the simultaneous production of clean H fuel and high-value chemicals. However, the sluggish dynamics of photogenerated charge carriers across the photocatalysts result in low photoconversion efficiency, hindering the wide applications of such a technology. Herein, this work overcomes this limitation by inducing the full-space electric field via charge polarization engineering on a Mo cluster-decorated ZnInS (Mo-ZnInS) photocatalyst. Specifically, this full-space electric field arises from a cascade of the bulk electric field (BEF) and local surface electric field (LSEF), triggering the oriented migration of photogenerated electrons from [Zn-S] regions to [In-S] regions and eventually to Mo cluster sites, ensuring efficient separation of bulk and surface charge carriers. Moreover, the surface Mo clusters induce a tip enhancement effect to optimize charge transfer behavior by augmenting electrons and proton concentration around the active sites on the basal plane of ZnInS. Notably, the optimized Mo-ZnInS catalyst achieves exceptional H and benzaldehyde production rates of 34.35 and 45.31 mmol g h, respectively, outperforming pristine ZnInS by 3.83- and 4.15-fold. These findings mark a significant stride in steering charge flow for enhanced photocatalytic performance.

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Source
http://dx.doi.org/10.1002/adma.202405060DOI Listing

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