Amit Kumar Gautam scite author profile

In this study, we garnered three important factors simultaneously, namely, wormhole mesoporosity of TiO 2 with welldesigned interfaces for effective charge transfers, precise loading of MoS 2 for plasmon induction, and increased surface area with exposed surface atoms and active sites. The controlled loading of MoS 2 on porous TiO 2 (MPT) forms a heterojunction that effectively modulates the interface engineering and thereby greatly enhances hydrogen evolution. The synthesis of a photocatalyst is based on a simple hydrothermal process that is well characterized. The resulting composite materials were tested for hydrogen evolution reactions. At optimum loading, MPT 10 induced a maximum hydrogen evolution rate of 1376 μmol h −1 g −1 with 2.28% apparent quantum yield (AQY), which was 10-fold higher compared to the MCT 10 (MoS 2 -commercial TiO 2 ) H 2 evolution rate of 138 μmol h −1 g −1 with 0.23% AQY under similar reaction conditions. The shorter decay component, lower emission intensity, and higher estimated lifetime of MPT 10 suggest its superiority over other materials. Density functional theory (DFT) calculations have further revealed the active sites of MPT and hierarchical porous TiO 2 (HPT) to support the experimental hydrogen evolution reaction (HER). This study suggests an avenue to design an efficient noble-metal-free photocatalyst for solar fuel productions.

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Hot injection-induced synthesis of ZnCdS–rGO/MoS₂ heterostructures for efficient hydrogen production and CO₂ photoreduction

Gautam

Tiwari

et al. 2021

Chem. Commun.

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