A Method of Depositing Copper Nanoparticles on Microparticles of Dielectrics as a Result of a Plasma-Chemical Reaction Initiated by the Radiation of a Powerful Gyrotron

Skvortsova, Nina N.; Voronova, Elena V.; Vafin, Ildar Yu; Akhmadullina, Nailya S.; Gayanova, Tatiana É.; Letunov, Alexander Alexeevich; Logvinenko, V. P.; Kolchanova, Anastasia Yu; Borzosekov, Valentin D.; Sokolov, Aleksandr S.; Stepakhin, Vladimir D.; Obraztsova, Ekaterina A.; Shishilov, Oleg N.

A Method of Depositing Copper Nanoparticles on Microparticles of Dielectrics as a Result of a Plasma-Chemical Reaction Initiated by the Radiation of a Powerful Gyrotron

This paper presents a description of the creation of heterogeneous catalysts by plasma-chemical methods using a powerful pulsed fusion gyrotron. The microdisperse particles for catalysts are created by irradiating a mixture of copper (Cu) and dielectric (aluminum oxide, silicon oxide, titanium oxide, silicon–aluminum oxynitride) powders by the microwave radiation of a gyrotron, which initiates plasma-chemical reactions inside the mixture and in the air above it. These are complex chain reactions of self-propagating high-temperature synthesis. As a result of these reactions, microparticles of dielectrics into whose surface Cu nanoparticles are imbedded are created. © 2025 American Nuclear Society.

Авторы

Skvortsova Nina N. ¹ , Voronova Elena V. ¹ , Vafin Ildar Yu ¹ , Akhmadullina Nailya S. ^1, ² , Gayanova Tatiana É. ¹ , Letunov Alexander Alexeevich ¹ , Logvinenko V.P. ^1, ³ , Kolchanova Anastasia Yu ⁴ , Borzosekov Valentin D. ¹ , Sokolov Aleksandr S. ¹ , Stepakhin Vladimir D. ¹ , Obraztsova Ekaterina A. ^1, ⁵ , Shishilov Oleg N. ^1, ⁶

Журнал

Fusion Science and Technology

Издательство

Taylor and Francis Ltd.

Номер выпуска

Язык

Английский

Страницы

833-847

Статус

Опубликовано

Ссылка

Внешняя ссылка

DOI

10.1080/15361055.2025.2478656

Том

Год

2025

Организации

¹ Prokhorov General Physics Institute of the Russian Academy of Sciences, Moscow, Russian Federation
² A.A.Baikov Institute of Metallurgy and Materials Science, Russian Academy of Sciences, Moscow, Russian Federation
³ RUDN University, Moscow, Moscow Oblast, Russian Federation
⁴ Lomonosov Moscow State University, Moscow, Moscow Oblast, Russian Federation
⁵ Moscow Institute of Physics and Technology, Dolgoprudny, Moscow Oblast, Russian Federation
⁶ MIREA - Russian Technological University (RTU MIREA), Moscow, Moscow Oblast, Russian Federation

Ключевые слова

gyrotron; microwave discharge; optical spectroscopy; Plasma chemistry; synthesis of heterogeneous catalysts

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