玻璃薄膜

同时，对Al基金属玻璃薄膜进行了晶体结构、表面形貌、热学特性以及光学和电学等特性的研究。

The crystal structure , surface morphology , thermal , optical and electrical properties are well studied .

但是，Al基金属玻璃薄膜的电阻率在晶态与非晶态之间差异不大。

At last , the Al-based metallic glass thin films show little resistivity difference between amorphous state and crystalline state .

用Maker条纹法检测到了2种玻璃薄膜的二阶非线性。

Maker fringes were detected in the films .

溶胶-凝胶法制备B2O3-SiO2和RO-B2O3-SiO2系统玻璃薄膜

Preparation of Glass Films of B_2O_3-SiO_2 and RO-BO-SiO System by Sol-Gel Process

熔凝玻璃薄膜的形成及其C-V特性

Preparation of Fused Glass Films and Their C-V Characteristics

TiO2-SiO2系统凝胶玻璃薄膜折射率的研究

Study on the refractive index of TiO_2-SiO_2 films

采用Sol-Gel法制备了纳米TiO2/导电玻璃薄膜电极，应用XRD表征了TiO2薄膜的物相和粒度。

The nano-size TiO 2 / glass thin film electrode has been prepared by the Sol-gel process . The crystal and size of TiO 2 in film were characterized by XRD .

利用磁控溅射法制备了两个组分的Ge-Ga-S-Se玻璃薄膜。

Ge-Ga-S-S glass films were deposited by RF magneto sputtering .

采用镀K9玻璃薄膜方法来解决离子交换掺铒磷酸盐玻璃波导表面的侵蚀问题，对K9玻璃薄膜的厚度进行了优化研究。

K9 glass film was used as protection coating in order to avoid the surface corrosion of erbium-doped phosphate glass during ion-exchange processing for optical waveguide fabrication .

不同先驱体溶胶-凝胶法制备的硫化锗玻璃薄膜

Preparation of germanium sulfide glass films by sol-gel method with different precursors

展馆是由双层玻璃薄膜和一个荧光屏幕覆盖。

The pavilion is covered by a double-layer glass membrane and fluorescent screens .

非晶硅玻璃薄膜电池应用及热稳定性能和抗压性能测试

The Use of A-si Film Cell and the Test Of Heat-Resistant and Load-Resistant Performance

旋转涂覆法制备硫化砷玻璃薄膜及其光学性质的研究

The Preparation and the Optical Properties of Arsenic Sulphide Film by Spin - Coating

高掺锡二氧化硅玻璃薄膜的制作及折射率测量

The fabrication of the high Sn-doped silica film and the measurement of its refractive index

光波导用氟化物玻璃薄膜

Fluoride Glass Films for Optical Waveguide

由GeCl4所得玻璃薄膜为富锗相，其折射率约为2.8；

The GeS glass films prepared from GeCl_ ( 4 ) are of Ge-rich with refractive index of ca.

应用光度法研究了溶胶凝胶系统组成、热处理温度对TiO2SiO2系统凝胶玻璃薄膜折射率的影响规律。

The Influence of composition and heat treatment temperature on the refractive index of the TiO 2 SiO 2 films has been investigated .

该方法简单方便，为制作硫系玻璃薄膜提供了新思路，但还需要进一步完善。

This method is simple and convenient , and provides a new way to make chalcogenide films , but need to be improved .

结果表明：采用不同先驱体制备的溶胶凝胶硫化锗玻璃薄膜其玻璃结构具有差异，并导致薄膜折射率的不同；

The results indicate that different refractive indexes of germanium sulfide glass films prepared by different precursor are obtained due to the differences in glass structure .

建筑窗户如果覆上该玻璃薄膜，窗户就可以反射红外光，而夏天红外光正是加热建筑的“元凶”。

This means that materials can be made that they are transparent to visible light but reflect infrared light , which could be used to coat windows and help stop heat leaking out of buildings .

择优取向的PbTiO3玻璃陶瓷薄膜的Sol-Gel制备及结构

Preparation and structure of preferentially oriented pbtio_3 glass - ceramic thin films by sol-gel process

CuI微晶掺杂硅凝胶玻璃及其薄膜的制备与光谱性质

Preparation and spectral properties of Cui microcrystallite doped silica glass and thin film by the sol-gel process

Ge-S基玻璃和薄膜二阶非线性光学性能的研究

Study on Second-order Nonlinear Optical Properties of Ge-S Chalcogenide Glasses and Their Films

硫系玻璃及其薄膜的二阶光学非线性研究

The Second - order Optical Nonlinearity of Chalcogenide Glasses and Films

硫系玻璃存储薄膜中的导电沟道

Conduction Channel in the Memory Film of Chalcogenide Glass

汽车前挡风玻璃用ITO薄膜的隔热及节能实验研究

Experimental studies on thermal shielding and saving energy of the coated ITO film for automobile front windshield

XPS研究大气环境下热处理温度对玻璃基TiN薄膜组成与结构的影响

XPS Study of Effect of Heat Treatment Temperature in Laboratory Atmosphere on Composition and Structure of TiN Films Coated on Float Glass

在不同的氧气分压下，用直流反应磁控溅射法制备了玻璃基TiO2薄膜试样，测试了试样的荧光发射光谱。

TiO 2 films have been deposited on glass substrates using DC reactive magnetron sputtering at different oxygen partial pressures from 0.10 to 0.65 Pa.

BaO-TiO2-SiO2系极性玻璃陶瓷及其薄膜研究

Study on Polar Glass-Ceramics and Thin Film in BaO-TiO_2-SiO_2 System

经过热处理，制备出外观平整透明的玻璃基TiO2薄膜，其薄膜厚度为80~100nm，粒度≤50nm。

A smooth and transparent glass substrate TiO2 film with 80 to 100 nm in thickness and smaller than 50 nm in particle size was obtained by the experiment .