Reduction of Graphene Oxide Thin Films by Cobaltocene and Decamethylcobaltocene

Reduced graphene oxide (RGO) films have been prepared by immersion of graphene oxide (GO) films at room temperature in nonaqueous solutions containing simple, outer-sphere metallocene reductants. Specifically, solutions of cobaltocene, cobaltocene and trifluoroacetic acid (TFA), and decamethylcobalt...

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Published in:ACS applied materials & interfaces 2018-01, Vol.10 (2), p.2004-2015
Main Authors: MacInnes, Molly M, Hlynchuk, Sofiya, Acharya, Saurabh, Lehnert, Nicolai, Maldonado, Stephen
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container_end_page 2015
container_issue 2
container_start_page 2004
container_title ACS applied materials & interfaces
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creator MacInnes, Molly M
Hlynchuk, Sofiya
Acharya, Saurabh
Lehnert, Nicolai
Maldonado, Stephen
description Reduced graphene oxide (RGO) films have been prepared by immersion of graphene oxide (GO) films at room temperature in nonaqueous solutions containing simple, outer-sphere metallocene reductants. Specifically, solutions of cobaltocene, cobaltocene and trifluoroacetic acid (TFA), and decamethylcobaltocene each showed activity for the rapid reduction of GO films cast on a wide variety of substrates. Each reactant increased the conductivity of the films by several orders of magnitude, with RGO films prepared with either decamethylcobaltocene or cobaltocene and TFA possessing the highest conductivities (∼104 S m–1). X-ray photoelectron spectroscopy suggested that while all three reagents lowered the content of carbon–oxygen functionalities, solutions of cobaltocene and TFA were the most effective at reducing the material to sp2 carbon. Separately, Raman spectra and atomic force micrographs indicated that RGO films prepared with decamethylcobaltocene consisted of the largest graphitic domains and lowest macroscopic roughness. Cumulatively, the data suggest that the outer-sphere reductants can affect the conversion to RGO but the reactivity and mechanism depend on the standard potential of the reductant and the availability of protons. This work both demonstrates a new way to prepare high-quality RGO films on a wide range of substrate materials without annealing and motivates future work to elucidate the chemistry of RGO synthesis through the tunability of outer-sphere reductants such as metallocenes.
doi_str_mv 10.1021/acsami.7b15599
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title Reduction of Graphene Oxide Thin Films by Cobaltocene and Decamethylcobaltocene
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