Mechanical-Effect descriptor for oxygen reduction reaction and hydrogen evolution reaction on Single-Atomic Ni-Graphene catalysts

被引:1
|
作者
Zhang, Wei [1 ]
Sun, Fu -li [1 ]
Zhang, Xue-long [1 ]
Zhao, Shuang-te [1 ]
Chen, Wen-xian [1 ]
Zhuang, Gui-lin [1 ]
机构
[1] Zhejiang Univ Technol, Inst Ind Catalysis, Coll Chem Engn, State Key Lab Breeding Base Green Chem Synth Techn, Hangzhou 310032, Peoples R China
来源
FUEL | 2024年 / 355卷
基金
中国国家自然科学基金;
关键词
Strain Engineering; Single Atom Catalyst; Oxygen Reduction Reaction; Hydrogen Evolution Reaction; Density Functional Theory; Fermi Level; GENERALIZED GRADIENT APPROXIMATION; DIRECT H2O2 PRODUCTION; ACTIVE-SITES; METAL; SURFACE; ELECTROCATALYST; PERFORMANCE; OXIDATION; STRENGTH; DESIGN;
D O I
10.1016/j.fuel.2023.129496
中图分类号
TE [石油、天然气工业]; TK [能源与动力工程];
学科分类号
0807 ; 0820 ;
摘要
Mechanical effects on single atomic Ni-based Graphene (Ni-gra) catalysts for oxygen reduction reaction (ORR) and hydrogen evolution reaction (HER) were investigated under implicit aqueous via density functional theory (DFT) calculations. The mechanical strain induced Ni-C4 configurations change between pentahedral and planar quadrilateral. Ni-gra exhibited chemico-physical adsorption of O-2, favoring 2e(-) ORR at 5.5% to 12.0% with overpotential of 0.119 V to 0.248 V and selectivity of 78.9% to > 99.9% in uniaxial strain (2.0% to 8.0% and 12.0%, 0.107 V to 0.455 V, 69.5% to = 99.9%, biaxial strain). The preferred 4e(-) ORR occurred when O-2 was chemosorbed at 3.0% to 4.5% with 0.240 V to 0.293 V overpotential and 72.9% to 94.1% selectivity in uniaxial strain (1.0% to 1.5% and 8.5% to 11.5%, 0.139 V to 0.290 V, 69.7% to =99.9%, biaxial strain). The presence of C-H-Ni coordination facilitated HER due to stronger H-attractiveness at-4.0% to 2.5% in uniaxial strain (-4.0% to 0.5%, biaxial strain). The overpotentials of ORR (2e(-), 4e(-)) and HER were highly correlated with the adsorption energies of O-2 and H (?E-O2* and ?E-H*). Based on geometric and electronic analysis, the Fermi level was found to be the optimum descriptor to monitor the variations in ?E-O2*, ?(EH*) and overpotentials under mechanical strain. This study reveals that mechanical engineering is an efficient approach to design catalysts for ORR and HER.
引用
收藏
页数:14
相关论文
共 50 条
  • [21] A review of advancements in theoretical simulation of oxygen reduction reaction and oxygen evolution reaction single-atom catalysts
    Ma, Ninggui
    Xiong, Yu
    Wang, Yuhang
    Zhang, Yaqin
    Wang, Qianqian
    Luo, Shuang
    Zhao, Jun
    Huang, Changxiong
    Fan, Jun
    MATERIALS TODAY SUSTAINABILITY, 2024, 27
  • [22] Role of Graphene on Ni/NiO for the Hydrogen Evolution Reaction
    Foster, Michael E.
    Kendrick, Ian
    Mukerjee, Sanjeev
    Jones, Reese
    JOURNAL OF PHYSICAL CHEMISTRY C, 2022, 126 (38): : 16158 - 16163
  • [23] Single-atomic iron synergistic atom-cluster induce remote enhancement toward oxygen reduction reaction
    Yayin Li
    Haomin Jiang
    Liu Lin
    Zemin Sun
    Genban Sun
    Journal of Energy Chemistry, 2025, 102 (03) : 413 - 420
  • [24] Single-Atomic Co-N-C Sites Anchored on Helical Carbonaceous Nanotubes for the Oxygen Reduction Reaction
    Zhang, Jieling
    Mou, Yonghong
    Suo, Weiran
    Yang, Shujiao
    Shen, Jian
    Xu, Hui
    Zeng, Zequan
    Zhang, Rong
    Liang, Zuozhong
    Wang, Yuan
    Zheng, Haoquan
    Cao, Jiahao
    Cao, Rui
    ADVANCED FUNCTIONAL MATERIALS, 2024,
  • [25] Atomic rhodium catalysts for hydrogen evolution and oxygen reduction reactions
    Guan, Jingqi
    Wen, Xudong
    Zhang, Qiaoqiao
    Duan, Zhiyao
    CARBON, 2020, 164 : 121 - 128
  • [26] Coordination Shell Dependent Activity of CuCo Diatomic Catalysts for Oxygen Reduction, Oxygen Evolution, and Hydrogen Evolution Reaction
    Chen, Yuqing
    Mao, Jianing
    Zhou, Hu
    Xing, Lingli
    Qiao, Shanshan
    Yuan, Jili
    Mei, Bingbao
    Wei, Zengxi
    Zhao, Shuangliang
    Tang, Yanhong
    Liu, Chengbin
    ADVANCED FUNCTIONAL MATERIALS, 2024, 34 (10)
  • [27] Single-atomic iron synergistic atom-cluster induce remote enhancement toward oxygen reduction reaction
    Li, Yayin
    Jiang, Haomin
    Lin, Liu
    Sun, Zemin
    Sun, Genban
    JOURNAL OF ENERGY CHEMISTRY, 2025, 102 : 413 - 420
  • [28] Correlating Single-Atomic Ruthenium Interdistance with Long-Range Interaction Boosts Hydrogen Evolution Reaction Kinetics
    Jiang, Bowen
    Zhu, Jiawei
    Xia, Zhenzhi
    Lyu, Jiahui
    Li, Xingchuan
    Zheng, Lirong
    Chen, Cheng
    Chaemchuen, Somboon
    Bu, Tongle
    Verpoort, Francis
    Mu, Shichun
    Wu, Jinsong
    Wang, John
    Kou, Zongkui
    ADVANCED MATERIALS, 2024, 36 (02)
  • [29] A simple descriptor for the nitrogen reduction reaction over single atom catalysts
    Fu, Zhanzhao
    Wu, Mingliang
    Li, Qiang
    Ling, Chongyi
    Wang, Jinlan
    MATERIALS HORIZONS, 2023, 10 (03) : 852 - 858
  • [30] Achieving Efficient Alkaline Hydrogen Evolution Reaction over a Ni5P4 Catalyst Incorporating Single-Atomic Ru Sites
    He, Qun
    Tian, Dong
    Jiang, Hongliang
    Cao, Dengfeng
    Wei, Shiqiang
    Liu, Daobin
    Song, Pin
    Lin, Yue
    Song, Li
    ADVANCED MATERIALS, 2020, 32 (11)
12345