离解(化学)
掺杂剂
过电位
轨道能级差
原子轨道
分子轨道
化学
化学物理
密度泛函理论
动力学
材料科学
分子物理学
物理化学
分子
原子物理学
兴奋剂
电子
计算化学
物理
电化学
经典力学
量子力学
光电子学
有机化学
电极
作者
Yishang Wu,Yufang Xie,Shuwen Niu,Yipeng Zang,Jinyan Cai,Zenan Bian,Xuanwei Yin,Yanyan Fang,Da Sun,Di Tao Niu,Zheng Lu,Amirabbas Mosallanezhad,Huijuan Wang,Dewei Rao,Hongge Pan,Gongming Wang
出处
期刊:Nano Research
[Springer Science+Business Media]
日期:2021-06-11
卷期号:14 (10): 3458-3465
被引量:29
标识
DOI:10.1007/s12274-021-3562-1
摘要
The high unoccupied d band energy of Ni3N basically results in weak orbital coupling with water molecule, consequently leading to slow water dissociation kinetics. Herein, we demonstrate Cr doping can downshift the unoccupied d orbitals and strengthen the interfacial orbital coupling to boost the water dissociation kinetics. The prepared Cr-Ni3N/Ni displays an impressive overpotential of 37 mV at 10 mA·cmgeo−2, close to the benchmark Pt/C in 1.0 M KOH solution. Refined structural analysis reveals the Cr dopant exists as the Cr-N6 states and the average d band energy of Ni3N is also lowered. Density functional theory calculation further confirms the downshifted d band energy can strengthen the orbital coupling between the unpaired electrons in O 2p and the unoccupied state of Ni 3d, which thus facilitates the water adsorption and dissociation. The work provides a new concept to achieve on-demand functions for hydrogen evolution catalysis and beyond, by regulating the interfacial orbital coupling.
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