Влияние рН среды на свойства углеродных точек с различной функционализацией поверхности: размеры и квантовый выход фотолюминесценции

М.Ю. Хмелева, К.А. Лаптинский, Т.А. Доленко
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Abstract

In this study carbon dots synthesized by the hydrothermal method and subsequent functionalization of the surface with carboxyl and hydroxyl groups were explored. As a result of studying the optical and colloidal properties of monofunctionalized carbon dots, a significant effect of the acidity of the nanoparticle environment on them was found. It has been found that for the photoluminescence quantum yield of carbon dots the greatest changes occur in the pH range from 2 to 5 for carbon dots with carboxyl surface groups and from 8 to 12 for carbon dots with hydroxyl groups. The mechanisms of the influence of surface functional groups on the photoluminescence of carbon dots with a change in the pH of the suspension are proposed.
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环境对不同表面功能的碳点的影响:光照发光的大小和量子输出
本研究探讨了水热法合成碳点及其表面羧基和羟基的功能化。研究了单官能化碳点的光学性质和胶体性质,发现纳米颗粒环境的酸度对单官能化碳点的光学性质和胶体性质有显著影响。研究发现,对于碳点的光致发光量子产率,pH值在2 ~ 5的范围内变化最大,表面基团为羧基的碳点在8 ~ 12的范围内变化最大。提出了表面官能团随悬浮液pH变化对碳点光致发光影响的机理。
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