在溶液中和在胶体溶液的蒸发滴的体积中形成C60的自组装结构

IF 0.3 4区物理与天体物理 Q4 PHYSICS, MULTIDISCIPLINARY

Lithuanian Journal of Physics Pub Date : 2020-08-03 DOI:10.3952/physics.v60i3.4306

U. Makhmanov, A. Kokhkharov, S. Bakhramov, D. Erts

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引用次数: 10

摘要

给出了C60富勒烯分子在双组分溶剂（二甲苯/四氢呋喃）中以及在平坦基底表面上的C60胶体溶液蒸发液滴体积中的自聚集实验结果。使用动态光散射、透射电子显微镜和紫外-可见吸收光谱方法对C60溶液进行的研究揭示了在溶液中低浓度C60的情况下合成直径高达~135nm的分形纳米聚集体的可能性。C60纳米聚集体的最终几何尺寸由富勒烯在溶剂介质中的初始浓度确定。使用扫描电子显微镜方法，我们已经表明，在一个开放的耗散系统中——在平板玻璃基底表面富勒烯C60固着胶体溶液的蒸发液滴体积中，形成了平均直径约为380–800 nm的大的准球形纳米聚集体。确定了富勒烯颗粒在干燥液滴体积内自聚集过程的物理特征和规律。

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The formation of self-assembled structures of C60 in solution and in the volume of an evaporating drop of a colloidal solution

The results of experiments on the self-aggregation of C60 fullerene molecules both inside a two-component solvent (xylene/tetrahydrofuran) and in the volume of an evaporating drop of C60 colloidal solution on a flat substrate surface are presented. The investigations of C60 solutions using dynamic light scattering, transmission electron microscopy and UV–Vis absorption spectroscopy methods revealed the possibility of synthesis of fractal nanoaggregates with a diameter of up to ~135 nm at low concentrations of C60 in the solutions. The final geometric dimensions of C60 nanoaggregates were determined by the initial concentration of fullerene in the solvent medium. Using the scanning electron microscopy method, we have shown that in an open dissipative system – in the volume of an evaporating droplet of the colloidal solution of fullerene C60 sessile on the surface of a flat glass substrate, large quasispherical nanoaggregates with an average diameter of ~380–800 nm are formed. The physical features and regularities that characterize the processes of self-aggregation of fullerene particles in the volume of a drying drop were determined.

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来源期刊

Lithuanian Journal of Physics 物理-物理：综合

CiteScore

0.90

自引率

16.70%

发文量

审稿时长

>12 weeks

期刊介绍： The main aim of the Lithuanian Journal of Physics is to reflect the most recent advances in various fields of theoretical, experimental, and applied physics, including: mathematical and computational physics; subatomic physics; atoms and molecules; chemical physics; electrodynamics and wave processes; nonlinear and coherent optics; spectroscopy.