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1. Self-assembled graphene films with various thicknesses as supercapacitor electrodes | |||
ZHU Jianbo,CHEN Wenjing,GUAN Sinan,ZHAO Xiayi,CHEN Xueye,ZU Jiasheng | |||
Chemical Engineering 03 June 2020 | |||
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Abstract:In this paper,Graphene have attracted considerable attention as the supercapacitor material due to its high electronic conductivity and large ion-accessible surface area. Herein, self-assembled reduced grapheneoxide (rGO) films with various controllable thicknesses and mass loadings are facilely prepared via a scalable vacuum filtration method. The rGO film electrodes with considerable mass loading of 6.7 mg cm-2 exhibit high specific capacitance of 173.4 F g-1 (1.16 F cm-2) at 1 A g-1 in 6 M KOH aqueous electrolyte, indicating the high utilization of the rGO active material. Moreover, quasi-solid supercapacitors fabricated with the rGO film electrode and PVA/KOH gel electrolyte shows a high capacitance of 1.03 F cm-2 and a large energy density of 0.073 mWh cm-2 at the power density of 3.3 mW cm-2, as well as excellent cycling stability of 85.6% retention after 10000 cycles. Such remarkable performance suggests that the rGO films are promising electrode materials for supercapacitor application. | |||
TO cite this article:ZHU Jianbo,CHEN Wenjing,GUAN Sinan, et al. Self-assembled graphene films with various thicknesses as supercapacitor electrodes[OL].[ 3 June 2020] http://en.paper.edu.cn/en_releasepaper/content/4752297 |
2. Effects of Carbon on Structure and Electrochemical Performance of Li2FeSiO4 Cathode Materials for Lithium-ion Batteries | |||
ZUO Pengjian,CHENG Guangyu,WANG Tao,LI Chunxiao,YIN Geping | |||
Chemical Engineering 02 January 2012 | |||
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Abstract:Li2FeSiO4/C composite cathode material was prepared by solid-state method with sucrose as carbon source. The effects of carbon content on structure and electrochemical performance of Li2FeSiO4/C cathode materials for lithium-ion batteries were investigated. The materials were characterized comparatively by X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), galvanostatic charge-discharge, electrochemical impedance spectroscopy (EIS) and cyclic voltammetry (CV), respectively. The SEM images showed that the Li2FeSiO4/C consists of partially agglomerated nanoparticles with an average particle size of 100 nm. TEM images confirmed that a carbon layer was formed on the surface of Li2FeSiO4/C particles, which aimed to enhance the electronic conductivity of the material as well as inhibit the agglomeration during annealing process. The electrochemical measurement results revealed that the Li2FeSiO4/C composite with 7.5wt % carbon shows a good electrochemical performance with an initial discharge capacity of 141 mAhog-1 at 0.1C, and remains a discharge capacity of 103.6 mAhog-1 at 0.5C after 50 cycles. | |||
TO cite this article:ZUO Pengjian,CHENG Guangyu,WANG Tao, et al. Effects of Carbon on Structure and Electrochemical Performance of Li2FeSiO4 Cathode Materials for Lithium-ion Batteries[J]. |
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