Making Synthetic 2D Graphene Oxide Nanosheets by Electrochemical Oxidation of Commercial Carbon Fibres
Alba Español, Anton Bjurström, Björn Birdsong, Fritjof Nilsson, Annu Pandey, Xiaojun Ren, Rakesh Joshi, Stefano Farris, Richard T Olsson

TL;DR
A new method produces high-quality graphene oxide nanosheets from carbon fibers, offering a sustainable alternative to mined graphite.
Contribution
A scalable and sustainable electrochemical method for synthesizing graphene oxide from commercial carbon fibers is introduced.
Findings
GO nanosheets have a consistent thickness of 0.9 ± 0.2 nm and circular/elliptical shapes.
A 5% nitric acid concentration optimizes exfoliation and electrochemical oxidation.
The process yields 200 mg of GO per gram of carbon fiber with high reproducibility.
Abstract
The study demonstrates a scalable and reproducible method for synthesising graphene oxide (GO) nanosheets from commercial carbon fibres derived from carbonised polyacrylonitrile (PAN) polymer. An exfoliation route with nitric acid allows for the preparation of monolayer GO nanosheets with a consistent thickness of 0.9 ± 0.2 nm, identical to the commercially available GO from mined graphite. The GO nanosheets exhibit distinct circular and elliptical shapes, in contrast to the polygonal and sharp‐edged morphology of commercial GO. An extensive evaluation of acidic solutions and electrical potentials identified a narrow processing window critical for obtaining GO nanosheets sized 0.1–1 µm. An unexpectedly low 5% acid concentration was found to be the most effective, providing a balance between efficient exfoliation through synergistic acidic and electrochemical oxidation. The process…
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Taxonomy
TopicsGraphene research and applications · Supercapacitor Materials and Fabrication · Graphene and Nanomaterials Applications
