Review: recent progress in high performance graphene fibers-fabrication, characterization and perspectives

Fei Ye; Tiehu Li; Yuhui Liu; Jiahe Chen; Shaoheng Wu; Amir Zada; Yongkang Han; Yiting Sun; Alei Dang

doi:10.1007/s10853-024-10194-6

Review: recent progress in high performance graphene fibers-fabrication, characterization and perspectives

Fei Ye, Tiehu Li, Yuhui Liu, Jiahe Chen, Shaoheng Wu, Amir Zada, Yongkang Han, Yiting Sun, Alei Dang

School of Materials Sience and Engineering

Research output: Contribution to journal › Review article › peer-review

1 Scopus citations

Abstract

Graphene fibers (GFs), assembled from graphene-based building blocks, have received considerable attention both from academia and industry due to their intriguing features of high specific surface area, lightweight, easy functionalization, excellent mechanical, electrical and thermal properties. Herein, we have summarized current research status of GFs in terms of their latest fabrication techniques, characterization methods and reduction processes. Wet and dry spinning, dimension-confined hydrothermal strategy, electrophoretic self-assembly, and film conversion fabrication techniques are mainly discussed to optimize the best fabrication conditions. Moreover, various characterization techniques and reduction processes of GFs are also elaborated in detail. Finally, a perspective of the future development and applications of GFs have been given a separate portion in this review.

Original language	English
Pages (from-to)	19753-19784
Number of pages	32
Journal	Journal of Materials Science
Volume	59
Issue number	42
DOIs	https://doi.org/10.1007/s10853-024-10194-6
State	Published - Nov 2024

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abstract = "Graphene fibers (GFs), assembled from graphene-based building blocks, have received considerable attention both from academia and industry due to their intriguing features of high specific surface area, lightweight, easy functionalization, excellent mechanical, electrical and thermal properties. Herein, we have summarized current research status of GFs in terms of their latest fabrication techniques, characterization methods and reduction processes. Wet and dry spinning, dimension-confined hydrothermal strategy, electrophoretic self-assembly, and film conversion fabrication techniques are mainly discussed to optimize the best fabrication conditions. Moreover, various characterization techniques and reduction processes of GFs are also elaborated in detail. Finally, a perspective of the future development and applications of GFs have been given a separate portion in this review.",

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AU - Ye, Fei

AU - Li, Tiehu

AU - Liu, Yuhui

AU - Chen, Jiahe

AU - Wu, Shaoheng

AU - Zada, Amir

AU - Han, Yongkang

AU - Sun, Yiting

AU - Dang, Alei

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AB - Graphene fibers (GFs), assembled from graphene-based building blocks, have received considerable attention both from academia and industry due to their intriguing features of high specific surface area, lightweight, easy functionalization, excellent mechanical, electrical and thermal properties. Herein, we have summarized current research status of GFs in terms of their latest fabrication techniques, characterization methods and reduction processes. Wet and dry spinning, dimension-confined hydrothermal strategy, electrophoretic self-assembly, and film conversion fabrication techniques are mainly discussed to optimize the best fabrication conditions. Moreover, various characterization techniques and reduction processes of GFs are also elaborated in detail. Finally, a perspective of the future development and applications of GFs have been given a separate portion in this review.

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Review: recent progress in high performance graphene fibers-fabrication, characterization and perspectives

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