Coagulation of gold nanoparticles in thin amorphous films under irradiation with a fast electron beam
14 сентября 2018
239
| Предметная область | — |
| Выходные данные | — |
| Ключевые слова | — |
| Вид публикации | Статья |
| Контактные данные автора публикации | Alymov, M.I.a , Timofeev, A.A.b, Gnedovets, A.G.a a Baikov Institute of Metallurgy and Material Science, Russian Academy of Sciences, Leninskii pr. 49, Moscow, 119991, Russian Federation b National Research Nuclear University (MEPhI), Kashirskoe sh |
| Ссылка на публикацию в интернете | www.scopus.com/ |
Аннотация
Abstract
Results of in situ studies into the coagulation of gold nanoparticles in amorphous carbon and silicon dioxide films exposed to an electron beam are presented. Special attention is paid to the final stage of coagulation (nanoparticle merging). The results clearly demonstrate the possibility of modifying the structure in a local film region by exposing it to an electron beam. Binary interparticle collisions are prevalent in the studied films. It is found that the rate of nanoparticle aggregation depends on the difference in their diameters and the orientation relationship at the moment of contact between the merging nanoparticles. It is also found that some nanoparticles are enlarged much in the same way as is done under recrystallization, i.e., via the migration of nanocrystal boundaries. © 2013 Pleiades Publishing, Ltd.
Indexed keywords
Fast electron beam; Gold Nanoparticles; Inter-particle collision; Nanocrystal boundaries; Nanoparticle aggregation; Orientation relationship; Silicon dioxide film; Thin amorphous films
Engineering controlled terms: Amorphous carbon; Amorphous films; Electron beams; Gold; Merging; Metal nanoparticles
Engineering main heading: Coagulation
ПодробнееResults of in situ studies into the coagulation of gold nanoparticles in amorphous carbon and silicon dioxide films exposed to an electron beam are presented. Special attention is paid to the final stage of coagulation (nanoparticle merging). The results clearly demonstrate the possibility of modifying the structure in a local film region by exposing it to an electron beam. Binary interparticle collisions are prevalent in the studied films. It is found that the rate of nanoparticle aggregation depends on the difference in their diameters and the orientation relationship at the moment of contact between the merging nanoparticles. It is also found that some nanoparticles are enlarged much in the same way as is done under recrystallization, i.e., via the migration of nanocrystal boundaries. © 2013 Pleiades Publishing, Ltd.
Indexed keywords
Fast electron beam; Gold Nanoparticles; Inter-particle collision; Nanocrystal boundaries; Nanoparticle aggregation; Orientation relationship; Silicon dioxide film; Thin amorphous films
Engineering controlled terms: Amorphous carbon; Amorphous films; Electron beams; Gold; Merging; Metal nanoparticles
Engineering main heading: Coagulation
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