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Effective Photocatalytic Ethanol Reforming into High‐Value‐Added Multicarbon Compound Coupled with H<sub>2</sub> Production Over Pt‐S<sub>3</sub> Sites at Pt<sub>SA</sub>–ZnIn<sub>2</sub>S<sub>4</sub> Interface

Shiting Wu, Xiaohui Li, Jiaqi Liu, Hanfeng Wu, Hanshuai Xu, Wangfeng Bai, Liang Mao, Xiaowei Shi

2023Small13 citationsDOI

Abstract

Abstract Selective photocatalytic production of high‐value acetaldehyde concurrently with H 2 from bioethanol is an appealing approach to meet the urgent environment and energy issues. However, the difficult ethanol dehydrogenation and insufficient active sites for proton reduction within the catalysts, and the long spatial distance between these two sites always restrict their catalytic activity. Here, guided by the strong metal‐substrate interaction effect, an atomic‐level catalyst design strategy to construct Pt‐S 3 single atom on ZnIn 2 S 4 nanosheets (Pt SA ‐ZIS) is demonstrated. As active center with optimized H adsorption energy to facilitate H 2 evolution reaction, the unique Pt single atom also donates electrons to its neighboring S atoms with electron‐enriched sites formed to activate the O─H bond in * CH 3 CHOH and promote the desorption of * CH 3 CHO. Thus, the synergy between Pt single atom and ZIS together will reduce the energy barrier for the ethanol oxidization to acetaldehyde, and also narrow the spatial distance for proton mass transfer. These features enable Pt SA ‐ZIS photocatalyst to produce acetaldehyde with a selectivity of ≈100%, which will spontaneously transform into 1,1‐diethoxyethane via acetalization to avoid volatilization. Meanwhile, a remarkable H 2 evolution rate (184.4 µmol h −1 ) is achieved with a high apparent quantum efficiency of 10.50% at 400 nm.

Topics & Concepts

CatalysisDehydrogenationAcetaldehydePhotocatalysisAdsorptionPhotochemistryChemistryMaterials sciencePhysical chemistryEthanolOrganic chemistryAdvanced Photocatalysis TechniquesElectrocatalysts for Energy ConversionCatalytic Processes in Materials Science
Effective Photocatalytic Ethanol Reforming into High‐Value‐Added Multicarbon Compound Coupled with H<sub>2</sub> Production Over Pt‐S<sub>3</sub> Sites at Pt<sub>SA</sub>–ZnIn<sub>2</sub>S<sub>4</sub> Interface | Litcius