Microwave-assisted synthesis and deposition of a thin ZnO layer on microwave-exfoliated graphene: optical and electrochemical evaluations

A rapid and facile microwave-assisted method has been developed for the deposition of a zinc oxide layer (ZnO L ) in situ on partially microwave exfoliated graphene (MpEG). The formation of the ZnO layer on microwave partially exfoliated graphene (ZnO L @MpEG) hybrid only requires zinc nitrate and t...

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Bibliographic Details
Published in:RSC advances 2015-01, Vol.5 (83), p.67988-67995
Main Authors: Kumar, Rajesh, Singh, Rajesh Kumar, Vaz, Alfredo R., Moshkalev, Stanislav A.
Format: Article
Language:English
Subjects:
Capacitors
Deposition
Electrochemical analysis
Graphene
Microwaves
MPEG encoders
Video compression
Zinc oxide
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Summary:A rapid and facile microwave-assisted method has been developed for the deposition of a zinc oxide layer (ZnO L ) in situ on partially microwave exfoliated graphene (MpEG). The formation of the ZnO layer on microwave partially exfoliated graphene (ZnO L @MpEG) hybrid only requires zinc nitrate and the MpEG sheets are reacted under a low level of microwave irradiation (700 W) for 5 min. The deposited thin ZnO L on the MpEG sheets is uniformly well-dispersed and covers the whole MpEG sheets. The as-prepared ZnO L @MpEG hybrids demonstrate enhanced electrochemical properties as supercapacitors and also show quenching phenomena for photoluminescence. The fluorescence quenching observed for the ZnO L @MpEG hybrids compared to ZnO, indicates photoinduced electron transfer from ZnO to the MpEG layers, which shows recombination of hole and electron charge carriers. The electrochemical measurements exhibit that the ZnO L @MpEG hybrids have a large integral area of the cyclic voltammetry loop, indicating that such hybrids are promising for application in supercapacitors. The material displayed a high specific capacitance of 347 F g −1 at a current density of 5.0 A g −1 . A mechanism for the formation of the ZnO L @MpEG hybrids via the microwave method has also been proposed.
ISSN:2046-2069
2046-2069
DOI:10.1039/C5RA09936F