Plakhtii, Ye. G.Hlushkova, D. B.Volchuk, V. M.2023-12-252023-12-252023Plakhtii, Ye. G. Development of ZnSxSe1-x nanocrystals with improved physical and optical properties obtained by the combustion synthesis method / Ye. G. Plakhtii, D. B. Hlushkova, V. M. Volchuk // Сучасні матеріали та технології їх обробки : зб. наук. пр. Міжнар. конф. здобувачів вищ. освіти і молодих учених, 20–21 квіт. 2023 р. / Харків. нац. автомоб.-дор. ун-т. – Харкiв, 2023. – С. 163–165.https://dspace.khadi.kharkov.ua/handle/123456789/18068All compounds of ZnSxSe1-x nanocrystals were created by combustion synthesis method. The obtained samples were discovered to have diameters of 55 ± 5 nm and to have a heterogeneous crystalline structure. The fraction of the cubic phase grew in the appropriate ratios as the x value increased, but the fraction of the hexagonal phase in nanocrystals declined from 65 ± 5% to 30 ± 5%. According to XRD data, Mn2+ impurity ions are not mixed in the immediate environment despite the creation of ZnSxSe1-x solid solutions. The Mn2+ ions were surrounded by sulfur ions at a value of 0.2 < х ≤ 1 and selenium ions were at a value of x ≤ 0.2.enZnSxSe1-x nanocrystalscombustion synthesisX-ray diffraction analysiscrystal structureEPR spectraDevelopment of ZnSxSe1-x nanocrystals with improved physical and optical properties obtained by the combustion synthesis methodArticle536.46 + 620.3