Design and fabrication of graphene fibers based on intermolecular forces and charge properties in a novel acidic system

Zhang Zhaofa; Zhang Desuo; Lin Hong; Chen Yuyue

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Design and fabrication of graphene fibers based on intermolecular forces and charge properties in a novel acidic system

机译：基于新型酸性系统中的分子间力和电荷性能的石墨烯纤维的设计与制造

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Graphene is one of the most famous carbon-based materials. Integrating two dimension (2D) graphene nanoflakes to macroscopic one dimension (1D) fibers could enrich graphene-based materials and its applications. This paper describes a new strategy of fabricating macroscopic graphene oxide fibers based on intermolecular forces and their charge properties in a new acidic coagulation system. The formation mechanism of graphene oxide fibers was proposed. The graphene fibers were prepared by following chemical reduction. The resultant graphene fibers have strong strain of 107.9 MPa and outstanding electrochemical properties. The cyclic voltammetry and galvanostatic charge-discharge studies for graphene fibers exhibited typical capacitive behavior with good rate stability. This work extended the methods for preparation of graphene fibers. The prepared macroscopic 1D graphene fibers may have a wide range of applications such as supercapacitors, sensors, smart and conductive textiles, etc.

机译：石墨烯是最着名的碳基材料之一。将两个尺寸（2D）石墨烯纳米薄膜集成在宏观一维（1D）纤维中可以丰富基于石墨烯的材料及其应用。本文介绍了在新的酸性凝固系统中基于分子间力制造宏观石墨烯氧化物纤维的新策略。提出了石墨烯氧化物纤维的形成机制。通过以下化学还原制备石墨烯纤维。所得石墨烯纤维具有107.9MPa的强菌株和出色的电化学性能。石墨烯纤维的循环伏安法和电镀电荷 - 放电研究表现出具有良好稳定性的典型电容性。这项工作扩展了制备石墨烯纤维的方法。制备的宏观1D石墨烯纤维可以具有广泛的应用，例如超级电容器，传感器，智能和导电纺织品等。

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《RSC Advances》 |2016年第102期|共6页
作者
Zhang Zhaofa; Zhang Desuo; Lin Hong; Chen Yuyue;
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Soochow Univ Coll Text &

Clothing Engn Natl Engn Lab Modern Silk Suzhou 215123 Peoples R China;

Soochow Univ Coll Text &

Clothing Engn Natl Engn Lab Modern Silk Suzhou 215123 Peoples R China;

Soochow Univ Coll Text &

Clothing Engn Natl Engn Lab Modern Silk Suzhou 215123 Peoples R China;

Soochow Univ Coll Text &

Clothing Engn Natl Engn Lab Modern Silk Suzhou 215123 Peoples R China;

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正文语种 eng
中图分类化学;
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1. Design and fabrication of graphene fibers based on intermolecular forces and charge properties in a novel acidic system [J] . Zhang Zhaofa, Zhang Desuo, Lin Hong, RSC Advances . 2016,第102期

机译：基于新型酸性系统中的分子间力和电荷性能的石墨烯纤维的设计与制造
2. Ferroconcrete-inspired design of a nonwoven graphene fiber fabric reinforced electrode for flexible fast-charging sodium ion storage devices [J] . Liu Zexin, Zhang Xin, Liu Cai, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2020,第5期

机译：用于柔性快速充电钠离子储存装置的非织造石墨烯纤维织物增强电极的Ferroconcrete的设计
3. Fabrication and Properties of Polyamide and Graphene Oxide Coated Carbon Fiber Reinforced Epoxy Composites [J] . Ayesha Kausar American Journal of Polymer Science . 2014,第3期

机译：聚酰胺和氧化石墨烯包覆的碳纤维增强环氧复合材料的制备与性能
4. Fabrication and Properties of Apocynum Venetum Bast Fibers Reinforced Polylactic Acid Composites [C] . Ahsan Ali, Lantao Wu, Lan Yao, Donghua University;Sino-Africa international symposium on textiles and apparel;Bahir Dar University . 2018

机译：罗布麻叶韧皮纤维增强聚乳酸复合材料的制备与性能
5. SOME PROPERTIES OF FIBER-REINFORCED, POLYESTER-BASED COMPOSITES, MADE WITH COIR, JUTE AND SISAL FIBERS (PHYSICAL, MECHANICAL, FIBER CELL, NEW BUILDING MATERIALS, 4 MODIFIED RULE, MIXTURES). [D] . LIN, TZU-HUAN JENNIFER. 1986

机译：用COIR，黄麻和剑麻纤维制成的纤维增强，聚酯基复合材料的某些特性（物理，机械，纤维单元，新型建筑材料，4根规则改性，混合物）。
6. Design and Fabrication by Thermal Imprint Lithography and Mechanical Characterization of a Ring-Based PDMS Soft Probe for Sensing and Actuating Forces in Biological Systems [O] . Tommaso Dattoma, Antonio Qualtieri, Gianmichele Epifani, 2019

机译：通过热压印光刻技术设计和制造基于环的PDMS软探针用于生物系统中的传感和驱动力。
7. Design and Fabrication by Thermal Imprint Lithography and Mechanical Characterization of a Ring-Based PDMS Soft Probe for Sensing and Actuating Forces in Biological Systems [O] . Tommaso Dattoma, Antonio Qualtieri, Gianmichele Epifani, 2019

机译：通过热压印光刻设计和制造，并基于环形PDMS软探针的机械表征，用于在生物系统中感测和致动力

Design and fabrication of graphene fibers based on intermolecular forces and charge properties in a novel acidic system

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