营养介质中槲皮素稳定银纳米粒子溶液的共振特性

V. Z. Lozovski, A. Vasiljev, T. A. Vasyliev, I. S. Petrik, A. M. Eremenko, N. P. Rybalchenko
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摘要

本文研究了将直径为 7 纳米的银纳米粒子胶体装在槲皮素外壳中与营养介质混合时,光吸收光谱的变化。纳米银粒子胶体是通过在水溶液中用四氢硼酸钠(NaBH4)化学还原 AgNO3 银盐制备的。槲皮素是一种植物黄酮类化合物。由于槲皮素能与金属形成络合物,因此被选为稳定纳米粒子的原料。槲皮素外壳能够保持银纳米粒子对细菌的杀菌作用,并削弱其对人体健康细胞的毒性作用。利用合成纳米粒子胶体的溶液的吸收光谱来控制合成结果。工作中研究了 Luria-Bertani 营养培养基。在混合前立即再次获得营养介质和纳米粒子胶体的吸收光谱。然后,将营养培养基和纳米颗粒胶体按体积比 1:1 混合,并测定混合物的吸收光谱。混合物的吸收光谱并不是纳米颗粒胶体光谱与营养介质吸收光谱的简单叠加。为了描述实验光谱,我们将稳定银纳米粒子胶体、营养介质以及胶体和营养介质的混合物视为液体中各种有机和无机纳米粒子的纳米复合体。因此,实验吸收光谱可通过与这些纳米粒子基本振荡器相关的理论近似得到。实验光谱与模拟光谱之间的误差不超过 3%。对纳米粒子胶体和营养介质混合物的复合光谱分析表明,纳米粒子中局部等离子体共振频率很可能不会发生变化。这意味着,要研究纳米粒子对生物物体(微生物或病毒)的影响,必须选择与胶体中局部等离子共振频率相同的外部照射波长。
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Resonance properties of the solution of quercetin stabilized silver nanoparticles in a nutrient medium
Changes in the light absorption spectrum when mixing colloids of Ag nanoparticles with a diameter of 7 nm in a quercetin shell with a nutrient medium were studied in the present article. Colloids of silver nanoparticles were prepared by chemical reduction of AgNO3 silver salt with sodium tetrahydroborate (NaBH4) in an aqueous solution. Quercetin is a flavonoid of plant origin. It was chosen to stabilize nanoparticles due to its capability to form complexes with metals. The quercetin shell is capable to preserve the bactericidal effect of silver NPs on bacteria and weaken their toxic effect on healthy cells of the human body. The absorption spectra of solutions from which nanoparticle colloids were synthesized were used to control the synthesis result. The Luria-Bertani nutrient medium was studied in the work. Absorption spectra of the nutrient medium and nanoparticle colloids were again obtained immediately before mixing. Then, the nutrient medium and the nanoparticle colloid were mixed in volume proportion 1:1, and the absorption spectrum of the mixture was mesured. The absorption spectrum of the mixture did not reproduce a simple overlay of the nanoparticle colloid spectrum on the absorption spectrum of the nutrient medium. To describe the experimental spectra, a colloid of stabilized silver nanoparticles, a nutrient medium, and a mixture of a colloid and a nutrient medium were considered by nanocomposites of various organic and inorganic nanoparticles in a liquid. As a result, experimental absorption spectra were theoretically approximated by related to these nanoparticles elementary oscillators. The error of the discrepancy between experimental and simulated spectra did not exceed 3%. Analysis of the complex spectra of the mixture of the nanoparticle colloid and the nutrient medium has shown that the frequency of the localized plasmon resonance in the nanoparticles most likely does not change. It means that for studying the effect of nanoparticles on biological objects (microbes or viruses), the wavelength of external irradiation must be chosen equal to the wavelength of LPR in the colloid.
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