Materializing efficient methanol oxidation via electron delocalization in nickel hydroxide nanoribbon

被引:0
|
作者
Xiaopeng Wang
Shibo Xi
Wee Siang Vincent Lee
Pengru Huang
Peng Cui
Lei Zhao
Weichang Hao
Xinsheng Zhao
Zhenbo Wang
Haijun Wu
Hao Wang
Caozheng Diao
Armando Borgna
Yonghua Du
Zhi Gen Yu
Stephen Pennycook
Junmin Xue
机构
[1] National University of Singapore,Department of Materials Science and Engineering
[2] Agency for Science,Institute of Chemical and Engineering Sciences
[3] Technology and Research,Guangxi Collaborative Innovation Center of Structure and Property for New Energy
[4] Guangxi Key Laboratory of Information Materials,School of Physics and Electronic Engineering
[5] School of Material Science and Engineering,School of Chemistry and Chemical Engineering
[6] Guilin University of Electronic Technology,School of Physics
[7] Jiangsu Normal University,Department of Mechanical Engineering
[8] Harbin Institute of Technology,Singapore Synchrotron Light Sources (SSLS)
[9] Beihang University,National Synchrotron Light Source II
[10] National University of Singapore,Institute of High Performance Computing
[11] National University of Singapore,undefined
[12] Brookhaven National Laboratory,undefined
[13] Agency for Science,undefined
[14] Technology and Research,undefined
来源
Nature Communications | / 11卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Achieving a functional and durable non-platinum group metal-based methanol oxidation catalyst is critical for a cost-effective direct methanol fuel cell. While Ni(OH)2 has been widely studied as methanol oxidation catalyst, the initial process of oxidizing Ni(OH)2 to NiOOH requires a high potential of 1.35 V vs. RHE. Such potential would be impractical since the theoretical potential of the cathodic oxygen reduction reaction is at 1.23 V. Here we show that a four-coordinated nickel atom is able to form charge-transfer orbitals through delocalization of electrons near the Fermi energy level. As such, our previously reported periodically arranged four-six-coordinated nickel hydroxide nanoribbon structure (NR-Ni(OH)2) is able to show remarkable methanol oxidation activity with an onset potential of 0.55 V vs. RHE and suggests the operability in direct methanol fuel cell configuration. Thus, this strategy offers a gateway towards the development of high performance and durable non-platinum direct methanol fuel cell.
引用
收藏
相关论文
共 50 条
  • [41] Corrosion formation and phase transformation of nickel-iron hydroxide nanosheets array for efficient water oxidation
    Gong, Lanqian
    Yang, Huan
    Wang, Hongming
    Qi, Ruijuan
    Wang, Junlei
    Chen, Shenghua
    You, Bo
    Dong, Zehua
    Liu, Hongfang
    Xia, Bao Yu
    NANO RESEARCH, 2021, 14 (12) : 4528 - 4533
  • [42] Formation of electron-deficient Ni in a Nb/NiFe-layered double hydroxide nanoarray via electrochemical activation for efficient water oxidation
    Ding, Boyu
    Jiang, Zheheng
    Guo, Xinlong
    Wen, Shukai
    Wang, Kairui
    Li, Shihang
    Yang, Yongqiang
    Sha, Qihao
    Li, Bo
    Luo, Liang
    Dan, Zhaowang
    Li, Yaping
    Sun, Xiaoming
    NANOSCALE, 2025, 17 (13) : 7825 - 7829
  • [43] Nickel nitride nanoparticles as efficient electrocatalyst for effective electro-oxidation of ethanol and methanol in alkaline media
    Mazloum-Ardakani, Mohammad
    Eslami, Vahid
    Khoshroo, Alireza
    MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE MATERIALS, 2018, 229 : 201 - 205
  • [44] Zr-MOF@Polyaniline as an efficient platform for nickel deposition: Application to methanol electro-oxidation
    Sheikhi, Sara
    Jalali, Fahimeh
    FUEL, 2021, 296
  • [45] Carbon Ceramic Electrodes Modified with Alpha-Nickel Hydroxide Applied to the Electro-Oxidation of Methanol in Alkaline Medium.
    Modolo, M. L.
    Danczuk, M.
    Anaissi, F. J.
    Araki, K.
    Fujiwara, S. T.
    IONIC AND MIXED CONDUCTING CERAMICS 9, 2014, 61 (01): : 319 - +
  • [46] Highly dispersed ultrafine Pt nanoparticles on nickel-cobalt layered double hydroxide nanoarray for enhanced electrocatalytic methanol oxidation
    Zhang, Feifei
    Wang, Zhenyu
    Xu, Kendrick Qizhou
    Xia, Jianfei
    Liu, Qingyun
    Wang, Zonghua
    INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2018, 43 (33) : 16302 - 16310
  • [47] Promoting nickel oxidation state transitions in single-layer NiFeB hydroxide nanosheets for efficient oxygen evolution
    Bai, Yuke
    Wu, Yu
    Zhou, Xichen
    Ye, Yifan
    Nie, Kaiqi
    Wang, Jiaou
    Xie, Miao
    Zhang, Zhixue
    Liu, Zhaojun
    Cheng, Tao
    Gao, Chuanbo
    NATURE COMMUNICATIONS, 2022, 13 (01)
  • [48] Introduction of Mn(III) to regulate the electronic structure of fluorine-doped nickel hydroxide for efficient water oxidation
    Lv, Jiaqi
    Yang, Xiaoxuan
    Li, Ke
    Chen, Xinyu
    Sun, Sai
    Zang, Hong-Ying
    Chang, Ying-Fei
    Wang, Yong-Hui
    Li, Yang-Guang
    NANOSCALE ADVANCES, 2019, 1 (10): : 4099 - 4108
  • [49] Promoting nickel oxidation state transitions in single-layer NiFeB hydroxide nanosheets for efficient oxygen evolution
    Yuke Bai
    Yu Wu
    Xichen Zhou
    Yifan Ye
    Kaiqi Nie
    Jiaou Wang
    Miao Xie
    Zhixue Zhang
    Zhaojun Liu
    Tao Cheng
    Chuanbo Gao
    Nature Communications, 13
  • [50] An efficient and stable iodine-doped nickel hydroxide electrocatalyst for water oxidation: synthesis, electrochemical performance, and stability
    Yousaf, Sheraz
    Zulfiqar, Sonia
    Somaily, H. H.
    Warsi, Muhammad Farooq
    Rasheed, Aamir
    Shahid, Muhammad
    Ahmad, Iqbal
    RSC ADVANCES, 2022, 12 (36) : 23454 - 23465
12345