Y. V. Hrebelna, E. Demianenko, M. Terets, Y. Sementsov, V. Lobanov, A. Grebenyuk, V. Kuts, S. Zhuravskyi, O. V. Khora, M. Kartel
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Quantum-chemical studies of the interaction of partially oxidized graphene-like planes with each other
Using the methods of quantum chemistry, the energy effects of the interaction of partially oxidized graphene-like planes with each other and the effect on this characteristic of the nature of the functional groups present in the oxidized graphene-like planes, as well as the dimensions of the graphene-like planes themselves, were clarified. It was established that the reaction between the hydroxyl and aldehyde groups of two interacting graphene-like planes is the most thermodynamically probable, regardless of the dimensions of the graphene-like planes. The reaction between two carboxyl groups of different graphene-like planes is the least thermodynamically probable. To create nanocomposites by interacting graphene-like planes with each other, it is necessary that the graphene-like planes contain hydroxyl and aldehyde groups.
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