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Enhanced Sunlight driven photocatalytic performance and visualization of latent fingerprint by green mediated ZnFe2O4–RGO nanocomposite

Novel green reduced graphene oxide with ZnFe2O4 for waste water treatment, display applications as well as a labelling agent to enhance latent fingerprinting. [Display omitted] •Green-route for effective reduction of GO to RGO using Emblica officinalis fruit extract.•Eco-friendly route to synthesize...

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Published in:Arabian journal of chemistry 2020-01, Vol.13 (1), p.1449-1465
Main Authors: Amrutha, V.S., Anantharaju, K.S., Prasanna, D.S., Rangappa, Dinesh, Shetty, Krushitha, Nagabhushana, H., Ashwini, K., Vidya, Y.S., Darshan, G.P.
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Language:English
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Summary:Novel green reduced graphene oxide with ZnFe2O4 for waste water treatment, display applications as well as a labelling agent to enhance latent fingerprinting. [Display omitted] •Green-route for effective reduction of GO to RGO using Emblica officinalis fruit extract.•Eco-friendly route to synthesize multifunctional ZnFe2O4-RGO nanocomposite.•Nanocomposite catalysts exhibited excellent Sunlight photocatalytic performance.•Nanocomposite can be utilized as a white component in WLED’s.•First time nanocomposite photocatalysts employed for latent fingerprint detection. The present study reveals a simple and efficient method for the green reduction of graphene oxide (GO) employing Emblica officinalis fruit extract as a reducing agent. Here, a green sol–gel method has been reported for the preparation of ZnFe2O4 and ZnFe2O4-reduced graphene oxide (RGO) nanocomposite (NCO) using Aloe Vera extract as a capping agent. PXRD, FT-IR, SEM, TEM and HRTEM confirmed the analytical aspects of synthesized samples. The band gaps of prepared samples were estimated by UV–Vis analysis. PL quenching appears due to the interaction between the surface of the ZnFe2O4 and RGO sheets. The photoluminescence analysis indicates that the present NCO is an effective white component in display applications. The NCO was found to be an alternate to traditional luminescent powder for a safe detection and qualitative improvement of latent fingerprints deposited onto different surfaces. Further, excellent photocatalytic properties of NCO when compared to that of the commercial P25 for various other dye degradation under Sunlight can be attributed to its specific electrical properties and well connected arrangement derived from the structural support of ZnFe2O4 and RGO. This results in significant electron-acceptor/transport of RGO material that are able to decrease the photo-generated electron–hole recombination thus enhancing the photocatalytic performance.
ISSN:1878-5352
1878-5379
DOI:10.1016/j.arabjc.2017.11.016