Формирование олигомеров серебряных наночастиц, полученных методом лазерной абляции в жидкости, путем последовательного центрифугирования и ультрасонификации: управляемый длинноволновый сдвиг плазмонного резонанса в интересах биомедицинских применений
Д.Р. Дададжанов, А.В. Палехова, Г. Алексан, М. А. Баранов, Н. А. Маслова
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Abstract
A relatively simple physical method has been proposed for fabrication of stable oligomers of silver nanoparticles, preliminarily obtained by pulsed laser ablation of a metal target in a liquid. Oligomers of silver nanoparticles are formed in an aqueous solution after prolonged centrifugation at 18000 g and subsequent ultrasonification of the initial colloidal solution of spherical nanoparticles obtained by laser ablation. The plasmon resonance in oligomers is shifted relative to the plasmon resonance in spherical nanoparticles to the long wavelength region by 140 nm.
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