Highly stable Co3O4 nanoparticles/carbon nanosheets array derived from flake-like ZIF-67 as an advanced electrode for supercapacacitor

超级电容器 沸石咪唑盐骨架 材料科学 化学工程 电解质 纳米颗粒 石墨烯 电容 氧化钴 硫化钴 氧化物 碳纤维 电极 纳米技术 金属有机骨架 电化学 化学 复合材料 复合数 吸附 有机化学 物理化学 冶金 工程类
作者
Tie Shu,Hao Wang,Qian Li,Zipeng Feng,Fuxiang Wei,Kexin Yao,Zhi Sun,Jiqiu Qi,Yanwei Sui
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:419: 129631-129631 被引量:105
标识
DOI:10.1016/j.cej.2021.129631
摘要

Nanosized transition metal oxides (TMOs) are one class of the most potential candidates for supercapacitors due to their short electron transport channels and reversible redox reactions. However, their easy-aggregation characteristics and volume shrinkage/expansion during the charge/discharge process seriously limit the practical application. To address this issue, in this work, a two-step thermal conversion different from traditional approaches is reported to synthesize tightly aligned Co3O4/carbon materials. The architecture of cross-linked nanosheets and uniformly distributed Co3O4 nanoparticles (NPs) is obtained by in-situ reduction of cobalt cations in flake-like zeolitic imidazolate frameworks (ZIFs) within inert gas at 500 °C and subsequent mild oxidation of metallic cobalt NPs to Co3O4 NPs (Co3O4@C-500). As a result, this strategy effectively prevents structural collapse and defect formation, which are usually caused by direct oxidation of ZIF-67 nanosheets. In supercapacitor tests, Co3O4@C-500 shows an appreciable specific capacitance (703.3 F g−1 at 1 A g−1) and excellent cycling stability with the capacitance retention of 100% after 10,000 cycles at 10 A g−1. Moreover, the Co3O4@C-500//reduced graphene oxide (RGO) asymmetric supercapacitor (ASC) exhibits an energy density of 43.99 Wh kg−1 at a power density of 824.8 W kg−1, and excellent cycling performance with a capacity retention of 88% after 10,000 cycles. Such excellent performance might benefit from the rational composition control and unique structure of Co3O4 NPs embedded in the carbon skeleton, which results in short electrolyte diffusion channels as well as electron transport distance and effectively reduce negative effect of volume change of electrode materials during the charge/discharge process.
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