S. A. Kulakov scite author profile

In this report we present results on synthesis of graphitic carbon nitride (g-C3N4) coating on various nanoparticles. Carbon nitride coatings were grown on of SiO2, TiO2, and Fe2O3 nanoparticles by the decomposition of the melamine at 300 °C. Relative fluorescence quantum yield was determined by comparing the fluorescence intensity of coated nanoparticles with that of the fluorescein in NaOH solution excited a green laser (532 nm). It was demonstrated that the g-C3N4 coated TiO2 nanoparticles have the highest quantum yield of the fluorescence among investigated nanoparticles.

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Получение Флуоресцентных Композитных Материалов На Основе Графитоподобного Нитрида Углерода

Bogomolov¹,

Kulakov²,

Zinin³

et al. 2020

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Поступила в редакцию 15.01.2020 г. В окончательной редакции 23.03.2020 г. Принята к публикации 28.03.2020 г. На основе графитоподобного нитрида углерода (g-C 3 N 4 ) методом термического разложения меламина в присутствии наночастиц оксида алюминия, оксида титана и оксида кремния получен высокофлуоресцентный композитный порошок. Изучены флуоресцентные свойства композитных наночастиц с источником возбуждения, имеющим длину волны 532 nm. Относительный квантовый выход полученного материала составил 62%.Ключевые слова: флуоресцентный материал, композитный материал на основе g-С 3 N 4 , флюоресценция, относительный квантовый выход.

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S. A. Kulakov

Synthesis of Fluorescent Composite Materials Based on Graphitic Carbon Nitride

Effect of the nanoparticle composition on the fluorescence of carbon nitride coatings

Получение Флуоресцентных Композитных Материалов На Основе Графитоподобного Нитрида Углерода

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