用于高电容性能的聚吡咯/膨胀石墨三维夹层纳米杂化物的设计与制备

Design and fabrication of polypyrrole/expanded graphite 3D interlayer nanohybrids towards high capacitive performance.

作者信息

Wang Jue, Fu Dong, Ren Binqiao, Yu Ping, Zhang Xiaochen, Zhang Weijun, Kan Kan

机构信息

Heilongjiang Academy of Sciences, Institute of Advanced Technology Harbin 150020 China

Key Laboratory of Functional Inorganic Material Chemistry, Ministry of Education, School of Chemistry and Material Science, Heilongjiang University Harbin 150080 China.

出版信息

RSC Adv. 2019 Jul 26;9(40):23109-23118. doi: 10.1039/c9ra04205a. eCollection 2019 Jul 23.

DOI:10.1039/c9ra04205a

PMID:35514504

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9067312/

Abstract

Polypyrrole/expanded graphite (PPy/EG) nanohybrids, with a hierarchical structure of a three dimensional EG framework with a thick PPy coating layer, have been synthesized a vacuum-assisted intercalation oxidation polymerization method. In the synthesis, pyrrole monomers were intercalated into the irregular pores of EG with the assistance of a vacuum pump. Subsequently, the intercalated pyrrole monomers assembled on both sides of the EG nanosheets and formed PPy by an polymerization method. As electrode materials, the typical PPy/EG10 sample with an EG content of 10% had a high specific capacitance of 454.3 F g and 442.7 F g (1.0 A g), and specific capacitance retention rate of 75.9% and 73.3% (15.0 A g) in 1 M HSO and 1 M KCl electrolytes, respectively. The two-electrode symmetric supercapacitor showed a high energy density of 47.5 W h kg at a power density of 1 kW kg, and could retain superb stability after 2000 cycles. The unique self-supporting structure feature and homogeneous PPy nanosphere coating combined the contributions of electrochemical double layer capacitance and pseudo-capacitance, which made the nanohybrids an excellent electrode material for high performance energy storage devices.

摘要

通过真空辅助插层氧化聚合法合成了具有三维EG框架和厚PPy涂层的分级结构的聚吡咯/膨胀石墨（PPy/EG）纳米杂化物。在合成过程中，吡咯单体在真空泵的辅助下插入到EG的不规则孔中。随后，插入的吡咯单体在EG纳米片的两侧组装，并通过聚合方法形成PPy。作为电极材料，典型的EG含量为10%的PPy/EG10样品在1 M HSO和1 M KCl电解质中分别具有454.3 F g和442.7 F g（1.0 A g）的高比电容，以及75.9%和73.3%（15.0 A g）的比电容保持率。两电极对称超级电容器在功率密度为1 kW kg时显示出47.5 W h kg的高能量密度，并且在2000次循环后仍能保持出色的稳定性。独特的自支撑结构特征和均匀的PPy纳米球涂层结合了电化学双层电容和赝电容的贡献，这使得纳米杂化物成为高性能储能器件的优异电极材料。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/20cf/9067312/8d8b0fb48a37/c9ra04205a-f1.jpg

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用于高电容性能的聚吡咯/膨胀石墨三维夹层纳米杂化物的设计与制备

Design and fabrication of polypyrrole/expanded graphite 3D interlayer nanohybrids towards high capacitive performance.

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