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Pristine graphene membranes supported on ceramic hollow fibre prepared via a sacrificial layer assisted CVD approach

Pristine graphene membranes supported on ceramic hollow fibre prepared via a sacrificial layer assisted CVD approach
Pristine graphene membranes supported on ceramic hollow fibre prepared via a sacrificial layer assisted CVD approach

Graphene is a 2D ultra-thin material, when being used as membranes, potentially promises high permeation flux and can be operated in extreme conditions attributed to its chemical inertness. Currently, continuous atomic thin graphene membranes can only be made by chemical vapour deposition (CVD) on flat sheet, which limits its process intensification because of the low surface-area-to-volume ratio. To tackle this challenge, we have successfully devised an unprecedented method to fabricate graphene membranes supported on ceramic hollow fibre via a nickel sacrificial layer approach. It starts with coating a continuous dense nickel sacrificial layer on yttrium-stabilised zirconia (YSZ) hollow fibre via electroless plating, followed by synthesis of a continuous graphene layer by CVD. After that, thermal oxygen etching followed by nitric acid leaching were performed to successfully remove the nickel layer, and defect-patching treatment was carried out to eliminate any major defects formed during the leaching process. Herein, a continuous ultra-thin graphene layer sitting on YSZ hollow fibre was obtained. The achieved graphene hollow fibre membrane exhibits a methanol flux of 2.4 LMH (L m−2 h−1) bar−1 and a remarkable 98.8% rose bengal rejection. This study thus demonstrates a step towards successful engineering of pristine graphene membranes on micro-tubular supports.

0376-7388
Yunsi, Chi
a60c567e-011e-42cb-808e-ded0fbc865c5
Chong, Jeng Yi
2f9ead94-86f2-4e20-9e67-75f10759555b
Wang, Bo
c7e48a2e-8790-4e1f-9740-5b50dd713030
Li, Kang
0f88a8e1-2691-46af-acb0-7176c79f5aa7
Yunsi, Chi
a60c567e-011e-42cb-808e-ded0fbc865c5
Chong, Jeng Yi
2f9ead94-86f2-4e20-9e67-75f10759555b
Wang, Bo
c7e48a2e-8790-4e1f-9740-5b50dd713030
Li, Kang
0f88a8e1-2691-46af-acb0-7176c79f5aa7

Yunsi, Chi, Chong, Jeng Yi, Wang, Bo and Li, Kang (2019) Pristine graphene membranes supported on ceramic hollow fibre prepared via a sacrificial layer assisted CVD approach. Journal of Membrane Science, 595, [117479]. (doi:10.1016/j.memsci.2019.117479).

Record type: Article

Abstract

Graphene is a 2D ultra-thin material, when being used as membranes, potentially promises high permeation flux and can be operated in extreme conditions attributed to its chemical inertness. Currently, continuous atomic thin graphene membranes can only be made by chemical vapour deposition (CVD) on flat sheet, which limits its process intensification because of the low surface-area-to-volume ratio. To tackle this challenge, we have successfully devised an unprecedented method to fabricate graphene membranes supported on ceramic hollow fibre via a nickel sacrificial layer approach. It starts with coating a continuous dense nickel sacrificial layer on yttrium-stabilised zirconia (YSZ) hollow fibre via electroless plating, followed by synthesis of a continuous graphene layer by CVD. After that, thermal oxygen etching followed by nitric acid leaching were performed to successfully remove the nickel layer, and defect-patching treatment was carried out to eliminate any major defects formed during the leaching process. Herein, a continuous ultra-thin graphene layer sitting on YSZ hollow fibre was obtained. The achieved graphene hollow fibre membrane exhibits a methanol flux of 2.4 LMH (L m−2 h−1) bar−1 and a remarkable 98.8% rose bengal rejection. This study thus demonstrates a step towards successful engineering of pristine graphene membranes on micro-tubular supports.

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More information

Published date: 18 September 2019
Additional Information: Funding Information: The authors gratefully acknowledge the research funding provided by EPSRC in the United Kingdom (Grant no. EP/M022250/1). Funding Information: The authors gratefully acknowledge the research funding provided by EPSRC in the United Kingdom (Grant no. EP/M022250/1 ). Publisher Copyright: © 2019 Elsevier B.V.

Identifiers

Local EPrints ID: 486381
URI: http://eprints.soton.ac.uk/id/eprint/486381
DOI: doi:10.1016/j.memsci.2019.117479
ISSN: 0376-7388
PURE UUID: 619935c5-064a-4967-b658-79882673e240
ORCID for Jeng Yi Chong: ORCID iD orcid.org/0000-0002-0593-6313

Catalogue record

Date deposited: 18 Jan 2024 19:27
Last modified: 12 Nov 2024 03:15

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Contributors

Author: Chi Yunsi
Author: Jeng Yi Chong ORCID iD
Author: Bo Wang
Author: Kang Li

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