The use of PWHM and Mie methods in estimation of colloidal silver particle size obtained by chemical precipitation with sodium borohydride

Damir Barbir, Pero Dabic, Mario Meheš
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引用次数: 5

Abstract

Unique antibacterial properties of silver have been known since the time of Egyptian pharaohs. With the discovery of antibiotics at the beginning of the twentieth century, silver is mostly pushed out from conventional medicine. However, with the excessive use of antibiotics, antibiotic-resistant super bacteria have appeared. Therefore, there is an increased interest in studying the antibacterial effects of colloidal silver. In this paper, the influence of various concentrations of silver nitrate on formation of colloidal silver particles in the solution was investigated. Colloidal silver was prepared by a chemical precipitation method using sodium borohydride as a reducing agent. As influence factors, color of the solution, Tyndall effect, UV/Vis absorption, and nanoparticle size estimated by PWHM (Peak Width at Half Maximum) and Mie methods were used. By increasing the silver concentration, color of the solution ranged from light yellow to dark yellow. All solutions showed Tyndall's effect equally. By the UV/Vis analysis it was found that the solutions absorbed radiation in the wavelength range 390-402 nm, and the intensity increased with increasing silver nitrate concentrations. By the PWHM and Mie methods silver nanoparticle sizes were estimated in the range 12-20 nm.
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用PWHM法和Mie法估计用硼氢化钠化学沉淀法得到的胶体银粒度
自埃及法老时代以来,人们就知道银具有独特的抗菌性能。随着二十世纪初抗生素的发现,银基本上从传统医学中被淘汰了。然而,随着抗生素的过度使用,出现了耐抗生素的超级细菌。因此,人们对胶体银的抗菌作用的研究越来越感兴趣。本文研究了不同浓度硝酸银对溶液中银胶体颗粒形成的影响。以硼氢化钠为还原剂,采用化学沉淀法制备了胶体银。影响因素包括溶液的颜色、Tyndall效应、UV/Vis吸收、PWHM (Peak Width at Half Maximum)法和Mie法测定的纳米颗粒大小。通过增加银的浓度,溶液的颜色从浅黄色变为深黄色。所有的解都同样显示出廷德尔效应。通过紫外/可见光谱分析发现,溶液在390 ~ 402 nm波长范围内吸收辐射,且吸收强度随硝酸银浓度的增加而增加。通过PWHM和Mie方法估计银的纳米颗粒尺寸在12 ~ 20 nm之间。
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