Constructing a hierarchical graphene-carbon nanotube architecture for enhancing exposure of graphene and electrochemical activity of Pt nanoclusters

Yang S.-Y.; Chang K.-H.; Lee Y.-F.; Ma C.-C.M.; Hu C.-C.

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Constructing a hierarchical graphene-carbon nanotube architecture for enhancing exposure of graphene and electrochemical activity of Pt nanoclusters

机译：构建分层的石墨烯-碳纳米管体系结构以增强石墨烯的暴露和Pt纳米簇的电化学活性

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Stacking of individual graphene sheets (GS) is effectively inhibited by introducing one-dimensional carbon nanotubes to form a 3-D hierarchical structure which enhances the utilization of GS-based composites. From SEM images, CNTs are useful nanospacers for diminishing the face-to-face aggregation of GS. The specific electrochemically active surface area (SECSA) and specific double-layer capacitance (C_(S,DL)) of Pt/GS-CNTs (127.9 m ~2/g, 171.3 F/g) is much higher than that of Pt/GS (105.4 m ~2/g, 104.7 F/g) and Pt/CNTs (51.5 m~2/g, 37.1 F/g), revealing the synergistic effects between GS and CNTs on enhancing the electrochemical activity of Pt nanoparticles and electrolyte-accessible surface area.

机译：通过引入一维碳纳米管以形成3-D分层结构，可有效抑制单个石墨烯片（GS）的堆叠，从而提高GS基复合材料的利用率。从SEM图像来看，CNT是有用的纳米间隔物，用于减少GS的面对面聚集。 Pt / GS-CNTs（127.9 m〜2 / g，171.3 F / g）的比电化学活性表面积（SECSA）和比双层电容（C_（S，DL））比Pt / GS高得多GS（105.4 m〜2 / g，104.7 F / g）和Pt / CNTs（51.5 m〜2 / g，37.1 F / g），揭示了GS和CNT之间的协同作用，以增强Pt纳米颗粒和电解质的电化学活性-可及的表面积。

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《Electrochemistry communications》 |2010年第9期|共4页
作者
Yang S.-Y.; Chang K.-H.; Lee Y.-F.; Ma C.-C.M.; Hu C.-C.;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
Carbon nanotubes; Graphene sheets; Pt nanoparticles;

机译：碳纳米管;石墨烯片;铂纳米粒子;

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1. Constructing a hierarchical graphene-carbon nanotube architecture for enhancing exposure of graphene and electrochemical activity of Pt nanoclusters [J] . Yang S.-Y., Chang K.-H., Lee Y.-F., Electrochemistry communications . 2010,第9期

机译：构建分层的石墨烯-碳纳米管体系结构以增强石墨烯的暴露和Pt纳米簇的电化学活性
2. Three-Dimensional Graphene-Carbon Nanotube-Ni Hierarchical Architecture as a Polysulfide Trap for Lithium-Sulfur Batteries [J] . Kumar G. Gnana, Chung Sheng-Heng, Kumar T. Raj, ACS applied materials & interfaces . 2018,第24期

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6. Enhanced electron transfer kinetics through hybrid graphene-carbon nanotube films [O] . Philémon A. Henry, Akshay S. Raut, Stephen M. Ubnoske, -1

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Constructing a hierarchical graphene-carbon nanotube architecture for enhancing exposure of graphene and electrochemical activity of Pt nanoclusters

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