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High-yield electro-oxidative preparation of graphene oxide

Authors: Abdelkader, A.M., Kinloch, I.A. and Dryfe, R.A.W.

Journal: Chemical Communications

Volume: 50

Issue: 61

Pages: 8402-8404

eISSN: 1364-548X

ISSN: 1359-7345

DOI: 10.1039/c4cc03260h

Abstract:

Herein, we report a green electrochemical oxidative approach to convert large quantities of graphite into graphene oxide (GO). The resulted GO flakes have been characterized using various analytical techniques. It was possible to control the degree of oxidation of the produced GO via controlling the electrochemical parameters of the process. © The Partner Organisations 2014.

Source: Scopus

High-yield electro-oxidative preparation of graphene oxide.

Authors: Abdelkader, A.M., Kinloch, I.A. and Dryfe, R.A.W.

Journal: Chem Commun (Camb)

Volume: 50

Issue: 61

Pages: 8402-8404

eISSN: 1364-548X

DOI: 10.1039/c4cc03260h

Abstract:

Herein, we report a green electrochemical oxidative approach to convert large quantities of graphite into graphene oxide (GO). The resulted GO flakes have been characterized using various analytical techniques. It was possible to control the degree of oxidation of the produced GO via controlling the electrochemical parameters of the process.

Source: PubMed

High-yield electro-oxidative preparation of graphene oxide

Authors: Abdelkader, A.M., Kinloch, I.A. and Dryfe, R.A.W.

Journal: CHEMICAL COMMUNICATIONS

Volume: 50

Issue: 61

Pages: 8402-8404

eISSN: 1364-548X

ISSN: 1359-7345

DOI: 10.1039/c4cc03260h

Source: Web of Science (Lite)

High-yield electro-oxidative preparation of graphene oxide.

Authors: Abdelkader, A.M., Kinloch, I.A. and Dryfe, R.A.W.

Journal: Chemical communications (Cambridge, England)

Volume: 50

Issue: 61

Pages: 8402-8404

eISSN: 1364-548X

ISSN: 1359-7345

DOI: 10.1039/c4cc03260h

Abstract:

Herein, we report a green electrochemical oxidative approach to convert large quantities of graphite into graphene oxide (GO). The resulted GO flakes have been characterized using various analytical techniques. It was possible to control the degree of oxidation of the produced GO via controlling the electrochemical parameters of the process.

Source: Europe PubMed Central