Spectroscopic characteristics of colloidal solutions of metal nanoparticles

Athletic Therapy Today Pub Date : 2021-02-01 DOI:10.30917/ATT-VK-1814-9588-2021-1-8

P. Krasochko, R. B. Korachkin, P. Krasochko, S. N. Gvozdev, M. Ponaskov, V. M. Eremets, L. A. Neminuschaya

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引用次数: 1

Abstract

Nanoparticles are finding more and more practical applications in various fields of human activity, including veterinary and medicine. Due to the fact that the effectiveness of activity of colloidal solutions of nanoparticles is directly related to the state of aggregation of nanosized particles, it is urgent to use fast and convenient methods for assessing the physicochemical characteristics of such preparations. Nanoparticles have unique optical properties that depend on their size and shape. They can be determined by the refractive index of the light on the surface of the nanoparticles in a phenomenon known as plasmon resonance, which makes UV-Vis spectroscopy a valuable tool for studying and evaluating the characteristics of nanomaterials. Goal of the study is to study the optical characteristics of several samples of colloids of nanoparticles of noble metals (silver) and bioelements (copper, silicon dioxide) in order to determine the possibility of further application of UV-Vis spectroscopy for evaluation of activity and stability of colloidal solutions of nanoparticles. Commercial preparations based on nanoparticles of noble metals (silver) or bioelements (copper, silicon dioxide) in working dilutions recommended by manufacturers were used to study optical characteristics of the colloidal solutions. Optical density and absorption spectra were determined at the wavelengths (nm): 300-800 nm. The f plasmon surface resonance has been found in all test preparations, while all of them exhibited obvious nonlinear optical properties. The most pronounced plasma resonance peak is found in the colloidal solution of silver nanoparticles within a wavelength of 420 nm. In the case of a colloidal solution of copper nanoparticles, the peak of plasmon resonance was less pronounced and had a red shift (peak at 560 nm). In the colloidal solution of silicon silica, the plasmon resonance was less pronounced than other test preparations, being shifted to the blue side of the spectrum (360 nm).

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金属纳米粒子胶体溶液的光谱特性

纳米粒子在包括兽医和医学在内的人类活动的各个领域得到越来越多的实际应用。由于纳米粒子胶体溶液活性的有效性直接关系到纳米粒子的聚集状态，因此迫切需要使用快速方便的方法来评估纳米粒子胶体溶液的物理化学特性。纳米粒子具有独特的光学特性，这取决于它们的大小和形状。它们可以通过纳米粒子表面光的折射率来确定，这种现象被称为等离子体共振，这使得紫外可见光谱成为研究和评估纳米材料特性的有价值的工具。本研究的目的是研究几种贵金属(银)和生物元素(铜、二氧化硅)纳米粒子胶体样品的光学特性，以确定进一步应用紫外可见光谱法评价纳米粒子胶体溶液活性和稳定性的可能性。以贵金属(银)或生物元素(铜、二氧化硅)纳米颗粒为基础的商业制剂，在制造商推荐的工作稀释度下，用于研究胶体溶液的光学特性。测定了300 ~ 800 nm波长处的光密度和吸收光谱。在所有的测试制备中都发现了等离子体表面共振，并且都表现出明显的非线性光学性质。最明显的等离子体共振峰出现在波长为420 nm的纳米银胶体溶液中。在铜纳米粒子胶体溶液的情况下，等离子体共振峰不那么明显，并且有一个红移(峰在560nm)。在二氧化硅胶体溶液中，等离子体共振比其他测试制剂不那么明显，被转移到光谱的蓝色一侧(360 nm)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Athletic Therapy Today 医学-康复医学

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>12 weeks