Nitrogen plasma engineered MoS2 for catalyzing hydrogen evolution reaction
Haoyang He, Ai Wang, Fengrui Yang, Rui Shu, Xinyan Xie, Yongheng Wen, Dong Zhao, Mao Wang, Yijia Huang, Zhengwei Xie, Ling Li, Jianqi Zhu

TL;DR
This paper introduces a nitrogen plasma treatment to enhance the hydrogen evolution reaction performance of molybdenum disulfide by activating its basal plane.
Contribution
A remote nitrogen plasma method is proposed to dope and activate monolayer MoS2 for improved electrocatalytic activity.
Findings
N-doped monolayer MoS2 achieves a HER overpotential of 348 mV at 10 mA cm−2.
Nitrogen incorporation increases active-site density and induces charge redistribution.
Theoretical calculations reveal a reduced band gap and optimized ΔGH of 0.10 eV.
Abstract
Monolayer molybdenum disulfide (MoS2) possesses exceptional electrical characteristics and a substantial specific surface area, rendering it an optimal material for electrocatalysis. However, its inert basal planes account for a relatively large proportion, and the limited exposure of active edge sites restricts its further utilization and development. Here, we report a remote nitrogen (N)-plasma treatment that incorporates substituted N into monolayer MoS2 (ML-MoS2) and activates its basal plane for the hydrogen evolution reaction (HER). The optimized N-doped ML-MoS2 delivers an overpotential of 348 mV at 10 mA cm−2 and a Tafel slope of 94 mV·dec−1. Experimental and theoretical results show that nitrogen incorporation induces lattice defects and charge redistribution and increases active-site density, thereby enhancing HER activity. This plasma-based, controllable surface activation…
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Taxonomy
TopicsElectrocatalysts for Energy Conversion · 2D Materials and Applications · Advanced Photocatalysis Techniques
