采用FeO硬模板法将高度褶皱的石墨烯片组装成用于紧凑型电容储能的分级多孔薄膜。

FeO hard templating to assemble highly wrinkled graphene sheets into hierarchical porous film for compact capacitive energy storage.

作者信息

Fang Hua, Meng Fanteng, Yan Ji, Chen Gao-Yun, Zhang Linsen, Wu Shide, Zhang Shichao, Wang Lizhen, Zhang Yongxia

机构信息

School of Material and Chemical Engineering, Zhengzhou University of Light Industry Zhengzhou 450001 PR China

Institute of Chemical Defense Beijing 102205 PR China.

出版信息

RSC Adv. 2019 Jun 27;9(35):20107-20112. doi: 10.1039/c9ra02132a. eCollection 2019 Jun 25.

DOI:10.1039/c9ra02132a

PMID:35514724

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9065504/

Abstract

Highly wrinkled graphene film (HWGF) with high packing density was synthesized by combining an electrostatically self-assembling process, a vacuum filtration-induced film assembling process and capillary compression. FeO nanoparticles were used as a low-cost and environment-friendly hard template. Hierarchical porosity and high packing density were achieved with the aid of capillary compression in the presence of FeO nanoparticles. This strategy enables integration of highly wrinkled graphene sheets to form highly compact carbon electrodes with a continuous ion transport network. The generated HWGF exhibited a high packing density of 1.53 g cm, a high specific surface area of 383 m g and a hierarchically porous structure. The HWGF delivered a high capacitance of 242 F g and 370 F cm at 0.2 A g in 6 M KOH aqueous electrolyte system with excellent rate capability (202 F g and 309 F cm retained at 20 A g). The capacity retention rate reached 97% after 10 000 cycles at 1 A g. The HWGF-based supercapacitor exhibited a high energy density of 17 W h kg at the power density of 49 W kg. Such high capacitive performances could be attributed to the highly dense but porous graphene assemblies composed of highly wrinkled graphene sheets.

摘要

通过结合静电自组装过程、真空过滤诱导的薄膜组装过程和毛细管压缩，合成了具有高堆积密度的高度褶皱石墨烯薄膜（HWGF）。FeO纳米颗粒被用作低成本且环境友好的硬模板。在FeO纳米颗粒存在的情况下，借助毛细管压缩实现了分级孔隙率和高堆积密度。这种策略能够整合高度褶皱的石墨烯片，以形成具有连续离子传输网络的高度致密碳电极。所制备的HWGF表现出1.53 g/cm的高堆积密度、383 m²/g的高比表面积和分级多孔结构。在6 M KOH水系电解质体系中，HWGF在0.2 A/g时具有242 F/g和370 F/cm³的高电容，以及优异的倍率性能（在20 A/g时保留202 F/g和309 F/cm³）。在1 A/g下循环10000次后，容量保持率达到97%。基于HWGF的超级电容器在49 W/kg的功率密度下表现出17 W h/kg的高能量密度。如此高的电容性能可归因于由高度褶皱的石墨烯片组成的高度致密但多孔的石墨烯组件。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1244/9065504/af5f9b11c1ee/c9ra02132a-f1.jpg

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采用FeO硬模板法将高度褶皱的石墨烯片组装成用于紧凑型电容储能的分级多孔薄膜。

FeO hard templating to assemble highly wrinkled graphene sheets into hierarchical porous film for compact capacitive energy storage.

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