银镜

温度、PH值对银镜反应的影响

Effects of Temperature and PH on Silver Mirror Reaction

银镜反应实验成败因素的探索

Factors Decisive to the Success of Silver Mirror Reactions

基于银镜反应原理制备Li4Ti5O（12）/Ag复合电极

Preparation of Li_4Ti_5O_ ( 12 ) / Ag composite based on the silver-mirror principle

研究了结晶紫（CV）和对氨基苯甲酸（PABA）在银镜及银胶表面吸附。

The adsorption of CV and PABA molecules on the surfaces of silver mirrors and silver colloids is studied .

在银镜和铜表面SERS光谱也有所不同，这是由于银镜的增强能力比铜大。

The difference of SERS spectra of DAB adsorbed on silver mirror and copper could be due to the difference of apparent enhanced factors of them .

通过对不同浓度溶液中吸附在银镜表面上的水场酸分子的表面增强喇曼散射（SERS）强度的测量，用SERS技术研究了水杨酸在银表面的吸附等温特性。

The adsorption isotherm for the salicylic acid solution / Ag mirror system is studied by measuring SERS intensity at the different concentration under the same temperature .

活性艳兰X-BR在银镜表面增强拉曼光谱的研究

Study of Adsorption Mechanism of Reactive Blue X-BR on Silver Mirror with Surface-enhanced Raman Scattering ( SERS ) Method

通过银镜反应制备了TiO2纳米管／Ag复合材料，并将其作为锂离子电池负极材料加以详细的电化学性能研究。

TiO2 nanotubes prepared by using a hydrothermal process were firstly coated with silver nanoparticles as the anode materials for lithium ion batteries by the traditional silver mirror reaction . The physical properties and electrochemical performance of Ag / TiO2-NTs composites were investigated in detail .

应用特征矩阵法，系统地研究了DBR和银镜的性质对器件性能的影响。

Ag and DBR are the reflectors . ( Using ) the transport method , the influence of the properties of the DBR and silver mirror on the performance of the device was deeply studied .

综上所述，我们将化学沉积银镜法制作SERS活性衬底从常用的玻璃或硅基等光滑表面扩展到实用的锂离子电池粉末电极材料，拓展了SERS的应用范围。

In conclusion , we expanded the practical scope of SERS by depositing silver islands on useful electrode powder materials , which was different from the common SERS active substrates such as the smooth surfaces of glass or silicon that were chemically deposited by silver .

受VK3分子吸附在银镜表面的影响，萘环结构发生了很大的扰动，导致一些拉曼特征峰产生位移，环变形振动对应的拉曼散射强度得到了增强。

The interaction between vitamin K_3 molecules and silver surface made a large disturbance to the structure of naphthalene ring , and resulted in some Raman shifts and the enhancement of ring deformation vibration .

银镜反应反常现象的实验探讨

A Research about the Abnormal Phenomena of the Sliver Mirror Reaction

高档银镜的制造从挑选优质原片开始。

We start with the highest " select quality " float glass .

甲酸银镜反应问题探究

Discussion on the Silver Mirror Reaction of Formic Acid

甲酸银镜反应实验的改进

Modification of the Silver Mirror Test of Formic Acid

醇类的银镜反应研究

Study on the Silver Mirror Reaction of Alcohols

糠醛在银镜上的表面增强拉曼光谱研究

The Study on Surfaced-enhanced Raman Scattering of Furfural

浅释银镜反应中的一些问题

Discussion on Some Problems in Silver Mirror Reaction

所有的一切将会映入银镜。

And all will turn to silver glass .

银镜反应影响因素探讨

Study on Factors of Silver Mirror Reaction

银镜衬底的表面增强拉曼散射机制研究

Mechanism Study of SERS on Ag Mirror

用天线共振子模型研究银镜的紫外可见吸收光谱

The Study on the Optical Absorption Spectra for Silver Mirrors based on the Antenna Resonator Model

利用工艺简单的银镜反应制备了润湿性均一的纳米银表面。

Silver mirror reaction is used as a facile method to synthesize nano-silver surface with uniform wettability .

我们研究了具有不同表面粗糙度银镜的紫外可见吸收光谱，实验结果表明随着表面粗糙度的增加，银粒子的共振吸收峰发生红移。

The optical absorption properties of the chemically deposited silver mirrors with different surface roughness have been studied .

本文经过反复多次的实验，对银镜反应的反常实验现象进行了初步的探讨。

The thesis tries to analyze primarily the abnormal phenomena of the sliver mirror reaction by many experiments .

穿过铺着鹅卵石的林荫小道，一面似银镜般的巨大的湖便展现在眼前。

Through the tree-lined with cobblestone lanes , side like silver mirror-like Great Lakes unfolds in front of it .

通过室温下的银镜反应，纤维的直径有些变粗，大约300nm~400nm，并且纤维表面变得粗糙。

By silver mirror reaction at room temperature , the diameter increasedto300nm ~ 400nm , and its surface became rough .

分析表明，乳酸钙分子在银镜上的吸附因缺少活位而不能产生明显的增强效应。

The results show that lacking active points , CL molecules adsorbed on Ag mirror can not give SERS effects noticeably .

利用银镜作为衬底，本文对乳酸钙的表面增强喇曼散射效应进行了研究。

The Surface Enhanced Raman Scattering ( SERS ) effect from Calcium lactate ( CL ) on Ag mirror is studied in this paper .

发生银镜反应后，银纳米粒子仅在二氧化硅裸露的部位生长，实现了修饰区域的可控。

These silver nanoparticles ( Ag-NPs ) grow on the exposed parts of silica after silver mirror reaction . It reveals the controllability of modification area .