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Effective redox reaction in a three-body smart photocatalyst through multi-interface modulation of organic semiconductor junctioned with metal and inorganic semiconductor

Farzin Nekouei, Tianyi Wang, Farzaneh Keshtpour, Yun Liu, Hao Li, Shahram Nekouei

2024Applied Catalysis B: Environmental16 citationsDOIOpen Access PDF

Abstract

Forming metal/semiconductor heterojunctions is a well-known strategy to enhance photo-reaction through interface band bending. However, challenges remain in simultaneously minimizing fast charge carrier recombination and avoiding potential photo-corrosion in photocatalysts for high efficiency and long lifetime application in energy, environment, and green chemistry. We here design and propose a new strategy by which multi-interface band structure modulation occurs in a three-body photocatalyst, exemplified by Ag/PDA@Ag2S (PDA: polydopamine). Experimental analyses including in-situ x-ray photoelectron spectroscopy (XPS) and time-resolved photoluminescence (TRPL) spectroscopy together with projected density of states studies suggest an S-scheme heterojunction formation in the PDA@Ag2S, which greatly enhances the separation of photogenerated carriers. Consequently, we demonstrate that this multibody photocatalyst exhibits superior stability and selective oxidation of a series of ionic dyes under solar-simulated irradiation. The hydrogen generation efficiency (reduction) is also remarkably enhanced compared to virgin Ag/Ag2S photocatalysts. We believe this work brings a new insight into catalyst design.

Topics & Concepts

SemiconductorPhotocatalysisRedoxInterface (matter)Modulation (music)Materials scienceMetalOptoelectronicsOrganic semiconductorChemistryPhysicsCatalysisComposite materialMetallurgyOrganic chemistryCapillary numberAcousticsCapillary actionQuantum Dots Synthesis And PropertiesConducting polymers and applicationsMolecular Junctions and Nanostructures
Effective redox reaction in a three-body smart photocatalyst through multi-interface modulation of organic semiconductor junctioned with metal and inorganic semiconductor | Litcius