固氮酶
双金属片
杂原子
石墨烯
化学
氧化还原
费米能级
氨
氮气
电子结构
氧化态
氢
催化作用
密度泛函理论
材料科学
无机化学
计算化学
纳米技术
固氮
有机化学
电子
物理
量子力学
戒指(化学)
作者
Xing‐Qi Han,Zhongling Lang,Fengyi Zhang,Hong‐Liang Xu,Zhong‐Min Su
标识
DOI:10.1016/j.apsusc.2021.152214
摘要
Fe-Mo system are recognized as the most successful nitrogenases system towards the synthesis of ammonia. At the same time, Fe or Mo plays a key role in nitrogenase enzymes together with the most common catalyst for nitrogen reduction reaction (NRR). Herein, we designed and explored NRR catalysts of bimetallic Fe-Mo atoms incorporating on three 2D materials, including graphdiyne (GD), Nitrogen atoms substituted graphene (G-N6) and C2N, by means of density functional theory. Fe-Mo atoms supported on C2N is calculated to the most promising one owing to its lowest limiting potential (−0.17 V) and excellent selectivity against hydrogen evolution reaction. The superior performance of FeMo dual-atom NRR catalysts has also been verified by comparing to individual Fe or Mo involved catalysts on account of synergistic effects. Besides, the high NRR activity of [email protected]2N could be ascribed to the high localized electronic states of 3d/4d and 2p orbitals near the Fermi level, providing the Fe-Mo active sites with optimal electronic state. Our studies would further inspire some experimental and theoretical researchers to find out the efficient catalysts with high activity for the synthesis of ammonia at room temperature.
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