化工进展 ›› 2021, Vol. 40 ›› Issue (11): 6211-6218.DOI: 10.16085/j.issn.1000-6613.2021-0842

• 材料科学与技术 • 上一篇    下一篇

基于聚苯胺改性构建三维MXene复合材料及其电容性能

李瑞1,2(), 谢芳霞2, 朱巧霞2, 陈露3, 简选3()   

  1. 1.太原理工大学环境科学与工程学院,山西 太原 030024
    2.太原理工大学化学与化工学院,山西 太原 030024
    3.延安大学化学与化工学院,陕西 延安 716000
  • 收稿日期:2021-04-21 修回日期:2021-08-20 出版日期:2021-11-05 发布日期:2021-11-19
  • 通讯作者: 李瑞,简选
  • 作者简介:李瑞(1990—),男,博士,讲师,研究方向为水分解制氢。E-mail:lirui13233699182@163.com
  • 基金资助:
    国家自然科学基金(22008167);陕西省教育厅科研项目(19JK0962);山西省自然科学基金(201901D211100);山西省高等学校科技创新项目(2019L0138)

Preparation of three-dimensional MXene composite materials based on polyaniline modification and its capacitive performance

LI Rui1,2(), XIE Fangxia2, ZHU Qiaoxia2, CHEN Lu3, JIAN Xuan3()   

  1. 1.College of Environmental Science and Engineering, Taiyuan University of Technology, Taiyuan 030024, Shanxi, China
    2.College of Chemistry and Chemical Engineering, Taiyuan University of Technology, Taiyuan 030024, Shanxi, China
    3.College of Chemistry and Chemical Engineering, Yan'an University, Yan'an 716000, Shaanxi, China
  • Received:2021-04-21 Revised:2021-08-20 Online:2021-11-05 Published:2021-11-19
  • Contact: LI Rui,JIAN Xuan

摘要:

通过直接电化学法,本文利用MXene表面官能团的诱导能力,在外加电场的作用下,将苯胺单体与MXene共同修饰在不锈钢电极表面,成功制得具有三维结构的MXene/聚苯胺复合电极材料。采用SEM、XRD、XPS、FTIR和Raman光谱对复合电极材料的表面形貌、物相结构和组成进行了表征,并在1mol/L H2SO4中详细研究了该电极材料的电容性能。结果表明,得益于MXene的掺杂,MXene/聚苯胺复合电极表现出较好的电子传导能力和优异的电容性能,在10mV/s的扫描速率下电容可达417F/g,当扫描速率增至200mV/s时,其电容保持率为52%,比纯PANI电极高31%。该复合电极材料具有良好的循环稳定性,在1.0A/g的电流密度下循环2000次后电容保持率可维持在83.4%。此项研究工作可为三维MXene复合材料的构建提供设计思路。

关键词: 电化学, 复合材料, 聚合, MXene, 聚苯胺, 电容性能

Abstract:

Three-dimensional MXene/polyaniline composite electrode materials were successfully synthesized through direct electrochemical method. Aniline monomer was induced and electrochemically polymerized by the surface functional groups of MXene nanosheets under external electric field. The surface, structure and composition of the composite electrode material were characterized by SEM, XRD, XPS, FTIR and Raman spectra. The capacitance properties of the composite electrode material were investigated in 1mol/L H2SO4. The results indicate that the MXene /PANI composite electrode exhibits excellent electron conduction ability and outstanding electrochemical performance due to the MXene doping. The gravimetric capacitance of the MXene/PANI composite electrodes can reach 417F/g at a scan rate of 10mV/s, and when the scan rate increases to 200mV/s, the electrode can still retain 52% of the original specific capacitance value, which is 31% higher than that of pure PANI electrode. In addition, the composite electrode also exhibits excellent cycling stability, and the capacitance retention can be maintained up to approximately 83.4% after 2000 cycles at a current density of 1.0A/g. This research work can provide design ideas for the construction of 3D MXene composites.

Key words: electrochemistry, composites, polymerization, MXene, polyaniline, capacitive performance

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