Contact
    Start Publications A freestanding hydroxylated carbon nanotube film boosting the ...
    ←  Publication Finder
    Attension

    A freestanding hydroxylated carbon nanotube film boosting the stability of Zn metal anodes

    Year: 2022

    Journal: Mater. Today Commun., Volume 32, AUG

    Authors: Huang, Jian-Qiu; Hou, Zhen; Gao, Peisen; Yan, Xiaofeng; Lin, Xiuyi; Zhang, Biao

    Organizations: Scientific Research Foundation of Chongqing University of Technology [2020ZDZ014]; Research Program of Banan District of Chongqing [2020QC435]; Science and Technology Research Program of Chongqing Municipal Education Commission [2021CJZ034]; Entrepreneurship and Innovation Support Program for Overseas Scholars - Chongqing Human Resources and Social Security [2021RC07]

    Keywords: Zn metal anode; Dendrites; Hydroxyl groups; Carbon films

    Carbon film has been widely adopted to improve the stability of Zn metal anode for rechargeable aqueous Zn-ion batteries. Serving as a buffer layer between the anode and separator, the carbon film reduces the localized current density for suppressing the dendrite initiation. Yet, the zincophobic nature of carbon counteracts its effectiveness. Herein, a freestanding hydroxylated carbon nanotube (OH-CNT) film is adopted as the buffer layer, where the abundant hydroxyl groups provide zincophilic sites for stable Zn deposition. Furthermore, the conductive and porous CNT film homogenizes the ion and electron distribution for smooth Zn growth. Consequently, the symmetric cell with Zn/OH-CNT electrode exhibits a dendrite-free morphology and delivers superior performance with a low overpotential of 83 mV after 500 h plating and stripping process. The beneficial effects of OH-CNT film on boosting the electrode stability are confirmed in the full cell by coupling with a modified ZnxV2O5.H2O cathode. This study emphasizes the essential roles of surface functionality of carbon buffer layers, where hydroxyl groups display merit.
    View publication