%0 Journal Article %T 自支撑柔性氮掺杂碳织物电极的制备与性能研究<br>Preparation and Characterization of Self-Supporting Flexible Nitrogen-Doped Carbon Fabric Electrodes %A 杨波 %A 金直航 %A 赵亚萍 %A 蔡再生< %A br> %A YANG Bo %A JIN Zhi-hang %A ZHAO Ya-ping %A CAI Zai-sheng %J 电化学 %D 2018 %R 10.13208/j.electrochem.180110 %X 摘要 本文以纯棉织物为基底,吡咯单体为氮源,采用简单的原位聚合-高温煅烧的方法制备了自支撑柔性氮掺杂织物(N-CT). 利用傅立叶红外技术、X射线光电子能谱、比表面积测试、扫描电子显微镜对所得产物进行结构与形貌表征. 结果表明,碳化后聚吡咯主要以纳米碳球包覆在碳织物表面,N-CT电极的比表面积为495.0 m2·g-1,其含氮量为2.26%. 电化学测试表明,在0.5 A·g-1的电流密度下N-CT电极的比电容器为256.2 F·g-1,经过5000次的恒流充放电循环后电容保持率为98.3%,库伦效率保持率在98.8%左右,具有良好的柔性和机械性能.<br>With the wide applications of intelligent wearable devices in various fields, developing a new generation of flexible energy storage devices has become a major challenge for the current technology. As a wide application of wearable flexible substrate, cotton fabric has the advantages over low price, non-toxic and environmental friendly, but the poor conductivity becomes a major problem limiting its development. As a nitrogen-containing conducting polymer, polypyrrole is traditionally used as electrode materials, but poor mechanical performance and cycle stability severely limit its application in electrode materials. In this article, a self-supporting flexible nitrogen-doped carbon fabric electrode was prepared by in situ polymerization-high temperature calcination method using cotton as a substrate and polypyrrole as a nitrogen source. The high temperature carbonization transformed the non-conductive cotton fabric into a good conductive carbon fabric while retaining its original three-dimensional structure and the nitrogen was mixed into carbon materials at the same time. The structure was characterized by Fourier infrared spectroscopy, specific surface area test, scanning electron microscopy and X-ray photoelectron spectroscopy. The results demonstrated that the cotton fiber was uniformly coated by polypyrrole that was subsequently carbonized into nanocarbon, the specific surface area of the obtained nitrogen-doped carbon (N-CT) electrode was 495.0 m2·g-1 and the nitrogen content was 2.26%. The electrochemical performance test showed that the N-CT electrode had a capacitance of 256.2 F·g-1 at a current density of 0.5 A·g-1. The stability test revealed that the capacitance retention was 98.3% and the coulomb effciency was about 98.8% after 5000 charge-discharge cycles. Meanwhile, the N-CT electrode exhibited good flexibility and mechanical properties %K 聚吡咯 %K 纯棉织物 %K 氮掺杂碳 %K 柔性电极 %K 超级电容器 %K < %K br> %K polypyrrole %K cotton %K nitrogen doped carbon %K flexible electrode %K supercapacitor %U http://electrochem.xmu.edu.cn/CN/abstract/abstract10448.shtml