Enhanced shielding effectiveness in nanohybrids of graphene derivatives with Fe3O4 and epsilon-Fe3N in the X-band microwave region

Vinod, Rohith K and Saravanan, P and Kumar, Suresh T R and Radha, R and Balasubramaniam, M and Balakumar, S (2018) Enhanced shielding effectiveness in nanohybrids of graphene derivatives with Fe3O4 and epsilon-Fe3N in the X-band microwave region. In: NANOSCALE, 10 (25). pp. 12018-12034.

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Abstract

Novel nanocomposites of reduced graphene oxide (rGO)-Fe3O4, denoted as rGO:IO, and nitrogen doped rGO-epsilon-Fe3N, denoted as NrGO:IN', were prepared by a modified polyol method, wherein both the reduction of graphene oxide and oxidation of Fe2+/Fe3+ ions occurred simultaneously, followed by ammonia nitridation. The electron microscopy analysis of the rGO:IO and NrGO:IN nanocomposites revealed unique morphologies. In rGO:IO, the Fe3O4 nanoparticles having a mean diameter of 38 nm were found to be uniformly anchored to the rGO sheet surface, whereas in NrGO:IN, the epsilon-Fe3N nanoparticles (approximate to 150 nm) were shielded by the NrGO sheets. Superparamagnetic and weak ferromagnetic characteristics with saturation magnetization values of 39.5 and 46 emu g(-1) were observed in the rGO:IO and NrGO:IN nanocomposites respectively, which can be attributed to the nature of the constituent magnetic nanoparticles, Fe3O4 and epsilon-Fe3N. In addition, the graphene derivatives such as rGO and NrGO contributed to the enhanced electrical properties of the nanocomposite. The electrochemical impedance spectroscopy analysis showed that, compared to pure Fe3O4 and epsilon-Fe3N nanoparticles, the total electrical resistance of rGO:IO and NrGO:IN was reduced by 33344.8 and 1569.87 cm(-2), respectively, when combined with the rGO and NrGO sheets. Further, the electromagnetic shielding performance of the NrGO:IN nanocomposite was investigated for the first time and was compared with the other samples. Of the two prepared nanocomposites, NrGO:IN exhibited electromagnetic shielding effectiveness of 35.33 dB at 11.4 GHz, which is considerably larger than that of rGO:IO (14.4 dB at 8 GHz). This enhanced shielding effectiveness is not only due to the high inherent magnetic and electrical properties of epsilon-Fe3N nanoparticles, but also due to the particle shielded by sheet' morphology of the NrGO:IN, which enhances the charge accumulation at the heterogeneous interfaces of NrGO sheets/epsilon-Fe3N nanoparticles.

Item Type:	Journal Article
Publication:	NANOSCALE
Publisher:	ROYAL SOC CHEMISTRY, THOMAS GRAHAM HOUSE, SCIENCE PARK, MILTON RD, CAMBRIDGE CB4 0WF, CAMBS, ENGLAND
Additional Information:	Copyright of this article belong to ROYAL SOC CHEMISTRY, THOMAS GRAHAM HOUSE, SCIENCE PARK, MILTON RD, CAMBRIDGE CB4 0WF, CAMBS, ENGLAND
Department/Centre:	Division of Electrical Sciences > Electrical Communication Engineering
Date Deposited:	24 Jul 2018 14:54
Last Modified:	24 Jul 2018 14:54
URI:	http://eprints.iisc.ac.in/id/eprint/60283

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