Gold nanodots-decoration stabilizes and activates metastable metallic phase MoS2 nanosheets for efficient hydrogen evolution reaction

Hydrogen evolution reaction (HER), an efficient and sustainable method for clean hydrogen energy producing, has been impeded by scarcity and costly of precious metals electrocatalysts. Two-dimensional (2D) metallic phase MoS2 (M-MoS2) nanosheets (NSs) have been identified as cost-effective and efficient alternative electrocatalysts for HER. However, the practical applications of M-MoS2 NSs are often limited by the metastable property of their metallic phase. Here, we demonstrate both the metallic phase stability and the electrocatalytic activity of the M-MoS2 NSs can be dramatically improved by gold (Au) nanodots (NDs) decoration. The obtained Au NDs decorated M-MoS2 NSs (namely, Au NDs@M-MoS2 NSs) maintain well their metallic phase even after about 100 days storage, while the M-MoS2 NSs have already transferred to dominant 2H phase one for about 2 weeks. The results of first-principles density functional theory (DFT) calculation also indicate that the Au NDs modification can stabilize the metastable metallic phase of M-MoS2 NSs. Moreover, the as-prepared Au NDs@M-MoS2 NSs also show remarkable enhanced electrocatalytic activity toward HER. These findings may open up an ideal approach to stabilize and activate the metastable metallic phase 2D transition metal dichalcogenides-based electrocatalysts for various promising applications. (C) 2022 Elsevier Ltd. All rights reserved.

Automated summary

This study demonstrates that the stability and electrocatalytic activity of metallic phase two-dimensional MoS2 nanosheets can be significantly improved by decoration with gold nanodots. The findings provide a new approach to stabilize and activate these nanosheets for various applications, such as hydrogen energy production.