Preparation and Electrochemical Performance of Three-Dimensional Vertically Aligned Graphene by Unidirectional Freezing Method

Peng Xia; Zhenwang Zhang; Zhihong Tang; Yuhua Xue; Jing Li; Guangzhi Yang

Preparation and Electrochemical Performance of Three-Dimensional Vertically Aligned Graphene by Unidirectional Freezing Method

Peng Xia; Zhenwang Zhang; Zhihong Tang; Yuhua Xue; Jing Li; Guangzhi Yang

Three-dimensional vertically aligned graphene (3DVAG) was prepared by a unidirectional freezing method, and its electrochemical performances were evaluated as electrode materials for zinc&minus:ion hybrid supercapacitors (ZHSCs). The prepared 3DVAG has a vertically ordered channel structure with a diameter of about 20&minus:30 &mu:m and a length stretching about hundreds of microns. Compared with the random structure of reduced graphene oxide (3DrGO), the vertical structure of 3DVAG in a three&minus:electrode system showed higher specific capacitance, faster ion diffusion, and better rate performance. The specific capacitance of 3DVAG reached 66.6 F&middot:g&minus:1 and the rate performance reached 92.2%. The constructed 3DVAG zinc&minus:ion hybrid supercapacitor also showed excellent electrochemical performance. It showed good capacitance retention up to 94.6% after 3000 cycles at the current density of 2 A&middot:g&minus:1.

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