The absorption peak of FL was red shifted when silver nanoparticles were added.
FL溶液中加入纳米银,FL分子吸收峰位发生红移。
The gold and silver nanoparticles have the excellent optical, electrical, magnetic and structural properties.
纳米金和银粒子具有优异的光学、电学、磁学和结构特性。
Major components: Silver nanoparticles, such as fennel plant extract, and efficient decomposition of the smell factor.
主要成份:纳米银、茴香等植物提取液,高效分解臭味因子。
Interraction and correlation effect of silver nanoparticles and serum albumin were reached by circular dichroism spectrum.
用圆二色光谱,紫外-可见光谱研究银纳米粒子与血清白蛋白的相互作用及其相关效应。
These fine properties are mainly due to the surface plasmon resonance and inner electron transition of silver nanoparticles.
这些优良特性主要来源于复合物中银纳米粒子的表面等离激元共振及其内部的电子跃迁。
Silver nanoparticles are prepared successfully by an electrochemical deposition in a lamellar liquid crystalline of oleate vesicles.
在油酸囊泡的层状液晶中利用电化学沉积法成功地制备了银纳米颗粒。
This paper summarized the preparation method of silver nanoparticles and nanowires, and the potential application of the nano silver.
介绍纳米银颗粒与纤维的制备方法,以及纳米银的应用前景。
Silver nanoparticles and Silver nanochains were successfully prepared by using polyethylene glycol(PEG) as solvent or PEG and water as mixed solvent.
聚乙二醇或聚乙二醇和水作溶剂,制备出银纳米颗粒和纳米级银链;
Due to its antibacterial properties, Silver nanoparticles has been widely used in various fields, such as environment, agriculture and medicals, etc.
纳米银因其优越的抗菌性能被广泛应用于环境、农业、医药等各个领域。
At the Georgia Institute of Technology, Eugenia Kharlampieva experimented with depositing silver nanoparticles on films of silk as a way of strengthening them.
乔治亚理工大学的尤金尼娅·哈莱姆皮厄娃(Eugenia Kharlampieva)尝试在丝质薄膜上镀上银纳米微粒来进行强化。
The surface modification and steady dispersion technology of silver nanoparticles were studied and their microstructure were characterized by TEM, XPS, XRD and FTIR.
研究了纳米银粒子的表面修饰与稳定分散技术,借助于TEM、XPS、XRD、FTIR等分析手段表征了表面修饰前后纳米银粒子的微观结构;
Intracellular surface enhanced Raman scattering (SERS) spectra and fluorescent spectra of 9aa indicate the form of 9aa adsorbed on the surface of silver nanoparticles.
活细胞内9氨基吖啶的表面增强拉曼散射光谱(SERS)以及荧光成像说明了9氨基吖啶吸附在银纳米粒子表面的方式。
Although this makes silver nanoparticles an extremely effective antimicrobial agent, it also raises concerns about humans' ability to withstand relatively high exposures.
尽管巨大的表面积使纳米银粒子成为极为有效的抗菌剂,但是人类能否承受如此大面积地接触纳米银粒子的忧虑甚嚣尘上。
The research progress in toxicology of silver nanoparticles in recent years was reviewed, and the lack of current research as well as future research prospects discussed.
综述了近年来在纳米银毒理学研究方面所取得的进展、目前研究中的不足并展望了未来研究的方向。
In this article, the Discrete Dipole Approximation (DDA) was used to calculate the extinction spectra of the gold and silver nanoparticles with the shape of sphere and cylinder.
本文采用离散偶极子近似理论,研究金、银两种金属的球形和棒状纳米粒子的消光光谱。
The preparation of composite film for coating dye molecules onto silver nanoparticles surface is introduced, and the amount of dye for saturation adsorbing is estimated and calculated;
介绍了将染料包覆的纳米银粒子掺入明胶基质中,进而制备成染料包覆纳米银粒子复合膜的工艺过程;
Silver nanoparticles with uniform diameters were obtained in dodecyl trimethyl ammonium bromide (DTAB) solution at room temperature under magnetic stirring through hydrazine reducing AgNO3.
常温磁力搅拌下,在十二烷基三甲基溴化铵(DTAB)体系中用水合肼还原硝酸银制备了颗粒细小均匀的纳米银粉。
That's because the prototype gadget, which works with an antenna and other components, made with nanoparticles of silver and other materials on an inkjet printer, can draw energy out of thin air.
这种雏形设备由纳米银颗粒和用在喷墨打印机上的其它材料制成,并与天线和其它组件配合使用,可以从稀薄的空气中获取能量。
Sliver nanoparticles were synthesized by chemical reduction route applied silver nitrate and butanediamine as raw materials.
以硝酸银和丁二胺为基本原料,采用化学还原方法合成了银纳米粒子。
There could be a coordination bond between the silver atom and the hydroxyl group of tannic acid, which stabilize the Ag nanoparticles in the spatial reticulate structure of tannic acid.
纳米银颗粒与羟基发生电荷吸附作用,固定在鞣酸的空间网状结构中,稳定存在。
The results demonstrated that the silver nanrods evolved from multiply twinned nanoparticles with a decahedral shape along (111) facet.
结果表明银纳米棒是由五重挛晶结构的纳米颗粒沿(111)面生长形成的。
The results demonstrated that the silver nanrods evolved from multiply twinned nanoparticles with a decahedral shape along (111) facet.
结果表明银纳米棒是由五重挛晶结构的纳米颗粒沿(111)面生长形成的。
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