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首页> 外文期刊>Journal of Materials Science >Graphene/phenolic resin-based porous carbon composites with improved conductivity prepared via in situ polymerization in graphene hydrogels
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Graphene/phenolic resin-based porous carbon composites with improved conductivity prepared via in situ polymerization in graphene hydrogels

机译:石墨烯/酚醛树脂基多孔碳复合材料,具有改进的导电性通过石墨烯水凝胶中的原位聚合制备

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摘要

Three-dimensional (3D) graphene/phenolic resin-based porous carbon composites with enhanced conductivity were prepared by carbonizing 3D graphene/phenolic resin composites and potassium hydroxide activation. The 3D graphene/phenolic resin composites were prepared via phenolic resin in situ polymerization in graphene hydrogels to protect the structure of 3D graphene. The prepared porous carbon composites exhibit an improved graphitization degree and enhanced conductivity by introducing 3D graphene. As supercapacitor electrode material, the electrochemical performance of the composite electrode materials was better than that of porous carbon prepared by pure phenolic resin due to the improved conductivity. The 3D graphene/phenolic resin-based porous carbon composite shows a high specific capacitance of 215.3Fg(-1) at 0.1Ag(-1), good rate capability of 72.9% in the range of 0.1-5Ag(-1) and excellent cycling stability (only 3.4% loss in specific capacitance after 5000 cycles). The method developed in this work would open up a new route to design and synthesize 3D graphene/porous carbon composites for a variety of applications like supercapacitors, catalysts and fuel cells.
机译:三维(3D)石墨烯/通过碳化3D石墨烯/酚醛树脂复合材料和氢氧化钾活化制备具有增强的电导率的酚醛树脂基的多孔碳复合材料。通过酚醛树脂在石墨烯水凝胶中原位聚合制备3D石墨烯/酚醛树脂复合材料,以保护3D石墨烯的结构。制备的多孔碳复合材料通过引入3D石墨烯表现出改善的石墨化程度和增强的导电性。作为超级电容器电极材料,复合电极材料的电化学性能优于由纯酚醛树脂制备的多孔碳由于改善的导电性。基于3D石墨烯/酚醛树脂的多孔碳复合材料显示出0.1Ag(-1)的高比电容为215.3Fg(-1),良好的速率能力为72.9%,范围为0.1-5ag(-1),优异循环稳定性(5000次循环后的特定电容中的损耗仅3.4%)。该工作中开发的方法将开辟一个新的途径来设计和合成3D石墨烯/多孔碳复合材料,用于各种应用,如超级电容器,催化剂和燃料电池。

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  • 来源
    《Journal of Materials Science》 |2019年第3期|共9页
  • 作者

    Yang Guoping; Wang Yanhui; Zhou Shuyu; Jia Shaopei; Xu Hanqing; Zang Jianbing;

  • 作者单位

    Yanshan Univ Coll Mat Sci &

    Engn State Key Lab Metastable Mat Sci &

    Technol Qinhuangdao 066004 Peoples R China;

    Yanshan Univ Coll Mat Sci &

    Engn State Key Lab Metastable Mat Sci &

    Technol Qinhuangdao 066004 Peoples R China;

    Yanshan Univ Coll Mat Sci &

    Engn State Key Lab Metastable Mat Sci &

    Technol Qinhuangdao 066004 Peoples R China;

    Yanshan Univ Coll Mat Sci &

    Engn State Key Lab Metastable Mat Sci &

    Technol Qinhuangdao 066004 Peoples R China;

    Yanshan Univ Coll Mat Sci &

    Engn State Key Lab Metastable Mat Sci &

    Technol Qinhuangdao 066004 Peoples R China;

    Yanshan Univ Coll Mat Sci &

    Engn State Key Lab Metastable Mat Sci &

    Technol Qinhuangdao 066004 Peoples R China;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 工程材料学;
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