Fabrication of tunable 3D graphene mesh network with enhanced electrical and thermal properties for high-rate aluminum-ion battery application

作者： Yang, GY [Yang, G. Y.][ 1,2 ] ¹ Chen, L [Chen, L.][ 1 ] ¹ Jiang, P [Jiang, P.][ 1 ] ¹ Guo, ZY [Guo, Z. Y.][ 2 ] ¹ Wang, W [Wang, W.][ 1 ] ¹ Liu, ZP [Liu, Z. P.][ 1 ] ¹
作者单位：

1. Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, Ningbo, Zhejiang 315201, P. R. China.
提交时间：2017-05-02 12:34:42

摘要: Three-dimensional (3D) graphene networks are attracting ever-increasing attention in the field of energy storage because their unique architecture at macroscopic scales is beneficial for effective electron and ion transport. Herein, a novel interconnected 3D graphene mesh network (3D GMN) was successfully designed and fabricated by folded Ni meshes assisted chemical vapor deposition method. The structure parameters of 3D GMN can be controlled well by tuning the period of Ni mesh and the electroplating time. With the increase of the density of 3D GMN, the electrical conductivity of 3D GMN and the thermal conductivity of 3D GMN/epoxy composite are greatly improved compared to that of the 3D graphene foam. This 3D GMN enables the high capacity of 57 mA h g 1 in an aluminum ion battery at the ultra- high rate of 40C with capacity retention of 96.5% after 200 cycles.

CHEMICAL-VAPOR-DEPOSITION HIGH-PERFORMANCE SUPERCAPACITOR FEW-LAYER GRAPHENE LARGE-AREA SOLAR-CELLS HEAVY-METAL OXIDE-FILMS ELECTRODES COMPOSITE ENERGY

期刊： RSC ADVANCES
分类： 物理学 >> 普通物理:统计和量子力学,量子信息等
引用： ChinaXiv:201705.00548 (或此版本 ChinaXiv:201705.00548V1)
DOI:10.12074/201705.00548V1
CSTR:32003.36.ChinaXiv.201705.00548.V1
推荐引用方式： Yang, GY [Yang, G. Y.][ 1,2 ],Chen, L [Chen, L.][ 1 ],Jiang, P [Jiang, P.][ 1 ],Guo, ZY [Guo, Z. Y.][ 2 ],Wang, W [Wang, W.][ 1 ],Liu, ZP [Liu, Z. P.][ 1 ].(2017).Fabrication of tunable 3D graphene mesh network with enhanced electrical and thermal properties for high-rate aluminum-ion battery application.RSC ADVANCES.[ChinaXiv:201705.00548] (点此复制)

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2017-05-02 12:34:42

ChinaXiv:201705.00548V1

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