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论文类型：期刊论文

发表时间：2021-01-30

发表刊物：JOURNAL OF COLLOID AND INTERFACE SCIENCE

卷号：531

页面范围：382-393

ISSN号：0021-9797

关键字：V3O7 center dot H2O/CNT/rGO; 3D porous hierarchical structure; Synergistic effect; Electrochemical properties; Supercapacitor

摘要：V3O7 center dot H2O possesses the merit of high specific capacitance, but weakness of cycling stability and low conductivity inhibit its application for energy devices, which requires the addition of carbon materials like carbon nanotubes (CNT) or graphene with properties of high conductivity and brilliant cycling stability to obtain high-performance composites. Since CNT or GO-based binary V3O7 center dot H2O materials have been rarely studied with limited specific capacitance, we developed a novel, highly porous V3O7 center dot H2O nano-belts/CNT/reduced graphene oxide (V3O7 center dot H2O/CNT/rGO) ternary composite with a three-dimensional (3D) hierarchical micro-structure by a single step, facile hydrothermal process and self-assembly method with outstanding electrochemical performances. During the hydrothermal process, CNT-anchored V3O7 center dot H2O nanobelts have been incorporated on the surface of rGO through in situ growth with preferred orientation, forming a 3D hierarchical porous structure composed mostly of mesopores and exhibiting enlarged specific surface area up to 53.7 m(2).g(-1). The well-designed V3O7 center dot H2O nanobelts also display excellent adhesion with CNT/rGO, which leads to reduced resistance resulted from the synergistic effect of pseudocapacitors (V3O7 center dot H2O nanobelts) and electric double-layer capacitors (EDLCs) (CNT/rGO) and large specific area with sufficient active sites ensure the composite to brilliant capacitive behavior. Applied to SCs, the ternary composite exhibits outstanding electrochemical performance with higher specific capacitance (685 F.g(-1) at 0.5 kg(-1)), higher energy density (34.3 W.h.kg(-1)) and extremely prominent cycle stability (99.7% of initial specific capacitance after 10,000 cycles) compared to those of most similar binary materials. Results suggest that the V3O7 center dot H2O/CNT/rGO ternary composite is a promising candidate for electrode materials applying to high-performance supercapacitors. (C) 2018 Elsevier Inc. All rights reserved.