Large-scale spinning assembly of neat, morphology-defined, graphene-based hollow fibers

Yang Zhao; Changcheng Jiang; Chuangang Hu; Zelin Dong; Jiangli Xue; Yuning Meng; Ning Zheng; Pengwan Chen; Liangti Qu

doi:10.1021/nn305674a

Large-scale spinning assembly of neat, morphology-defined, graphene-based hollow fibers

Yang Zhao, Changcheng Jiang, Chuangang Hu, Zelin Dong, Jiangli Xue, Yuning Meng, Ning Zheng, Pengwan Chen, Liangti Qu^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

144 Citations (Scopus)

Abstract

Large-scale assembly of graphenes in a well-controlled macroscopic fashion is important for practical applications. We have developed a facile and straightforward approach for continuous fabrication of neat, morphology-defined, graphene-based hollow fibers (HFs) via a coaxial two-capillary spinning strategy. With a high throughput, HFs and necklace-like HFs of graphene oxide have been well-controlled produced with the ease of functionalization and conversion to graphene HFs via simply thermal or chemical reduction. This work paves the way toward the mass production of graphene-based HFs with desirable functionalities and morphologies for many of important applications in fluidics, catalysis, purification, separation, and sensing.

Original language	English
Pages (from-to)	2406-2412
Number of pages	7
Journal	ACS Nano
Volume	7
Issue number	3
DOIs	https://doi.org/10.1021/nn305674a
Publication status	Published - 26 Mar 2013

Keywords

graphene
hollow fibers
macroscopic assembly
mass production
morphology control

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10.1021/nn305674a

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abstract = "Large-scale assembly of graphenes in a well-controlled macroscopic fashion is important for practical applications. We have developed a facile and straightforward approach for continuous fabrication of neat, morphology-defined, graphene-based hollow fibers (HFs) via a coaxial two-capillary spinning strategy. With a high throughput, HFs and necklace-like HFs of graphene oxide have been well-controlled produced with the ease of functionalization and conversion to graphene HFs via simply thermal or chemical reduction. This work paves the way toward the mass production of graphene-based HFs with desirable functionalities and morphologies for many of important applications in fluidics, catalysis, purification, separation, and sensing.",

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AU - Zhao, Yang

AU - Jiang, Changcheng

AU - Hu, Chuangang

AU - Dong, Zelin

AU - Xue, Jiangli

AU - Meng, Yuning

AU - Zheng, Ning

AU - Chen, Pengwan

AU - Qu, Liangti

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AB - Large-scale assembly of graphenes in a well-controlled macroscopic fashion is important for practical applications. We have developed a facile and straightforward approach for continuous fabrication of neat, morphology-defined, graphene-based hollow fibers (HFs) via a coaxial two-capillary spinning strategy. With a high throughput, HFs and necklace-like HFs of graphene oxide have been well-controlled produced with the ease of functionalization and conversion to graphene HFs via simply thermal or chemical reduction. This work paves the way toward the mass production of graphene-based HFs with desirable functionalities and morphologies for many of important applications in fluidics, catalysis, purification, separation, and sensing.

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KW - mass production

KW - morphology control

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Large-scale spinning assembly of neat, morphology-defined, graphene-based hollow fibers

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Keywords

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