Publications on the project |
040 Photochemical reduction of graphene oxide in colloidal solution |
Authors: | A. L. Stroyuk, N. S. Andryushina, N. D. Shcherban’, V. G. Il’in, V. S. Efanov, I. B. Yanchuk, S. Ya. Kuchmii, V. D. Pokhodenko
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Edition: | | | | 2012,
1-11,Russian |
040 Photopolymerization of acrylamide induced by colloidal graphene oxide |
Authors: | Andryushina N.S., Stroyuk O.L., Kuchmiy S.Ya., Pokhodenko V.D. | |
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Edition: | J. Photochem. Photobiol. A. | | | 2013,
1-6,English |
040 Influence of colloidal graphene oxide on photocatalytic activity of nanocrystalline TiO2 in gas-phase ethanol and benzene oxidation |
Authors: | N. S. Andryushina, O. L. Stroyuk | |
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Edition: | Appl. Catal. B. | | | 2014,
543-549,English |
040 Graphene Oxide Composites with Silver Nanoparticles: Photochemical Formation and Electrocatalytic Activity in the Oxidation of Methanol and Formaldehyde |
Authors: | N. S. Andryushina, A. L. Stroyuk, O. O. Ustavytska, Ya. I. Kurys, S. Ya. Kuchmy, V. G. Koshechko, V. D. Pokhodenko | |
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Edition: | Theoretical and Experimental Chemistry | | | 2014,
152-159,Russian |
040 A dynamic light scattering study of photochemically reduced colloidal graphene oxide |
Authors: | Andryushina N.S., Stroyuk O.L., Yanchuk I.B., Yefanov A.V. | |
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Edition: | Colloid & Polymer Sci. | | | 2014,
539-546,English |
040 Effect of the Degree of Photoreduction of Graphene Oxide on its Ability to Stabilize Graphite and Carbon Nanotubes in Aqueous Colloidal Solutions |
Authors: | N. S. Andryushina, A. L. Stroyuk, S. Ya. Kuchmy, N. V. Lemesh, N. A. Skorik | |
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Edition: | Theoretical and Experimental Chemistry | | | 2014,
280-287,Russian |
The events in the framework of the project |
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040 2.1. Physics and chemistry of nanomaterials and nanostructures Purpose:Development of new photochemical methods for formation of nanostructures based on grafite derivatives, in particular partially reduced graphene oxide (prGO) and graphene as well as semiconductor and metal nanoparticles; study of their structural, spectral, photochemical and photocatalytic properties as well as feasibility of their utilization as active components of photoelectrochemical and electroluminescent systems. Expected results:Issue of new types of products: methods, theories Stage 1:Development of photochemical methods of preparation of prGO and formation of heterostructures based on semiconductor and metal nanoparticles, prGO and graphene. Study of structural, spectral and electrophysical properties of the heterostructures. Stage 2:Study of optical and photochemical properties of graphene-semiconductor nanostructures and associated photocatalytic systems, in particular, the systems for hydrogen evolution from aqueous solutions of electron donors and gas-phase oxidation of volatile organic molecules (ethanol, acetone). Stage 3:Development of photochemical methods for formation of ternary nanostructures comprising semiconductor and metal nanoparticles and graphene derivatives, study of their spectral, photochemical and photocatalytic properties. Stage 4:Study of photoelectrochemical systems based on graphene-semiconductor film nanostructures. Stage 5:Study of electroluminescent properties of nanostructures comprising graphene and its derivatives as well as highly luminescent semiconductor nanoparticles and conjugated polymers.
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