单层
电催化剂
材料科学
杰纳斯
分解水
催化作用
化学物理
活动站点
共价键
离子键合
氢
纳米技术
密度泛函理论
化学工程
物理化学
计算化学
电化学
电极
化学
离子
光催化
有机化学
工程类
作者
Huan Lou,Kaiwen Qiu,Guochun Yang
标识
DOI:10.1021/acsami.1c18759
摘要
The rational design of low-cost electrocatalysts with the desired performance is the core of the large-scale hydrogen production from water. Two-dimensional materials with high specific surface area and excellent electron properties are ideal candidates for electrocatalytic water splitting. Herein, we identify a hitherto unknown Mo2P3 monolayer with a Janus structure (i.e., out-of-plane asymmetry) through first-principle structure search calculations. Its inherent metallicity ensures good electrical conductivity. Notably, its catalytic activity is comparable to that of Pt and the density of active sites is up to 2.65 × 1015 site/cm2 owing to the Mo → P charge transfer enhancing the catalytic activity of P atoms and asymmetric structure exposing more active sites to the surface. The Mo2P3 monolayer can spontaneously produce hydrogen through the Volmer-Heyrovsky pathway. These excellent performances can be well maintained under strain. The coexistence of covalent and ionic bonds results in Mo2P3 having high stability. All these excellent properties make the Mo2P3 monolayer a promising candidate for electrocatalytic water splitting.
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