Synthesis and modification of reduced graphene oxide aerogels for biofuel cell applications

We have carried out the preparation of reduced graphene oxide aerogels using eco-friendly method that is based on the Hummers method of graphite oxidation without the use of NaNO that produces toxic gases. To obtain a porous 3D structure of reduced graphene oxide, we performed the hydrothermal reduc...

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Bibliographic Details
Published in:Materials science--Poland 2015-06, Vol.33 (2), p.292-300
Main Authors: Kondratowicz, Izabela, Żelechowska, Kamila, Majdecka, Dominika, Bilewicz, Renata
Format: Article
Language:English
Subjects:
biofuel cell
functionalization of graphene
graphene aerogel
graphene oxide
reduced graphene oxide
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Summary:We have carried out the preparation of reduced graphene oxide aerogels using eco-friendly method that is based on the Hummers method of graphite oxidation without the use of NaNO that produces toxic gases. To obtain a porous 3D structure of reduced graphene oxide, we performed the hydrothermal reduction at elevated temperature. We also prepared the rGO aerogel/CNT composite using multiwalled carbon nanotubes as linkers. The rGO aerogels are promising materials as they possess good electrical conductivity (up to 100 S/m) and high surface area and porous structure (~500 m /g). The main goal was to obtain the material for electrodes in enzymatic biofuel cells. Thus, the proper modification was performed using free radical functionalization. It was shown that in order to synthesize rGO aerogels modified with anthracene, the proper order of reactions needs to be provided. The morphology of anthracene modified electrodes was analyzed using scanning electron microscopy, which confirmed their porous structure with non-uniform pore size distribution that ranged between few nanometers to microns. Data obtained by Raman spectroscopy confirmed the successful oxidation and reduction of analyzed materials. UV-Vis spectra revealed the presence of anthracene moieties in examined materials. We also recorded preliminary cyclic voltammograms that confirm an electric conductivity of the obtained structures.
ISSN:2083-134X
2083-134X
DOI:10.1515/msp-2015-0042