Your search keyword '"Seraya, Olesya"' showing total 3 results

1. In-flow laser modification of silver nanoparticles synthesized by spark discharge

Author

Seraya, Olesya, Lizunova, Anna, Khabarov, Kirill, Nouraldeen, Messan, and Ivanov, Victor

Subjects

modification, газовый разряд, наночастицы, laser radiation, plasmon resonance, серебро, nanoparticles, silver, модификация, лазерное излучение, плазмонный резонанс, spark discharge

Abstract

Silver nanoparticles have unique optical properties due to surface plasmon resonance, so they are widely used in various fields of science and technology. The synthesis of aerosol nanoparticles using a spark discharge allows to obtain submicron fractal agglomerated nanoparticles. For future application there is a need to develop new methods to produce nanoparticles with different shapes and sizes to control their optical properties. The article was devoted to the study of the processes of interaction of nanosecond laser radiation of different power (0, 230 and 460 MW) and wavelength (527 and 1054 nm) with the flow of aerosol agglomerates of silver nanoparticles (10-400 ml/min) synthesized in a spark discharge, and the assessment of the effect of pulsed radiation power on the morphology of silver nanoparticles. It was shown that best modification of silver nanoparticles to spherical shape was formed at the maximum laser radiation power of the wavelength of 527 nm, close to the plasmon resonance peak for silver., Наночастицы серебра обладают уникальными оптическими свойствами благодаря поверхностному плазмонному резонансу и широко используются в различных областях науки и техники. С помощью газового разряда можно получить аэрозоль из фрактальных агломерированных наночастиц серебра. Для дальнейшего применения интересны способы модификации их формы и размера для управления оптическими свойствами. Статья посвящена исследованию процессов взаимодействия наносекундного лазерного излучения различной мощности (0, 230 и 460 МВт) и длины волны (527 и 1054 нм) с потоком аэрозольных агломератов наночастиц серебра (10-400 мл/мин), синтезированных в газовом разряде, и оценке влияние мощности импульсного излучения на морфологию наночастиц серебра. Показано, что наилучшая модификация наночастиц серебра до сферической формы формируется при максимальной мощности лазерного излучения на длине волны 527 нм, близкой к пику плазмонного резонанса для серебра.

Published

2022

2. Comparison of Aerosol Pt, Au and Ag Nanoparticles Agglomerates Laser Sintering

Author

Khabarov, Kirill, primary, Nouraldeen, Messan, additional, Tikhonov, Sergei, additional, Lizunova, Anna, additional, Seraya, Olesya, additional, Filalova, Emiliia, additional, and Ivanov, Victor, additional

Published

2021

3. Comparison of Aerosol Pt, Au and Ag Nanoparticles Agglomerates Laser Sintering.

Author

Khabarov, Kirill, Nouraldeen, Messan, Tikhonov, Sergei, Lizunova, Anna, Seraya, Olesya, Filalova, Emiliia, and Ivanov, Victor

Subjects

LASER sintering, GOLD nanoparticles, AEROSOLS, LASER beams, LASER pulses, THRESHOLD energy, AGGLOMERATION (Materials), METAL powders

Abstract

In this paper, we investigated the interaction of nanosecond pulsed-periodic infrared (IR) laser radiation at a 50 and 500 Hz repetition rate with aerosol platinum (Pt) and silver (Ag) nanoparticles agglomerates obtained in a spark discharge. Results showed the complete transformation of Pt dendrite-like agglomerates with sizes of 300 nm into individual spherical nanoparticles directly in a gas flow under 1053 nm laser pulses with energy density 3.5 mJ/cm2. Notably, the critical energy density required for this process depended on the size distribution and extinction of agglomerates nanoparticles. Based on the extinction cross-section spectra results, Ag nanoparticles exhibit a weaker extinction in the IR region in contrast to Pt, so they were not completely modified even under the pulses with energy density up to 12.7 mJ/cm2. The obtained results for Ag and Pt laser sintering were compared with corresponding modification of gold (Au) nanoparticles studied in our previous work. Here we considered the sintering mechanisms for Ag, Pt and Au nanoparticles agglomerates in the aerosol phase and proposed the model of their laser sintering based on one-stage for Pt agglomerates and two-stage shrinkage processes for Au and Ag agglomerates. [ABSTRACT FROM AUTHOR]

Published

2022