Yttria stabilized zirconia ( YSZ) thin-film layers were deposited on NiO-YSZ anode substrates by centrifugal deposition technique, and the layers were sintered at 1 400 ℃ to obtain dense membranes. 用离心沉积方法在NiO-YSZ阳极基底上沉积了氧化钇稳定的氧化锆(YSZ)薄膜,并在1400℃烧结达到致密;
In order to get stable and high efficiency thin-film CdTe solar cells that the CdTe thin films surface chemical etching before deposition of a metallic contact is very important. 为了获得稳定高效的碲化镉太阳电池,在镀上金属电极前对碲化镉薄膜进行化学腐蚀是很重要的。
The common fabrication technologies of binary optical elements were expatiated, including etching, thin-film deposition, direct writing, excimer laser projection and gray-scale masks. 综述了二元光学元件的常用制作工艺技术,包括台阶刻蚀法、薄膜沉积法、直接写入法、准分子激光加工法和灰阶掩模法。
Based on static drift data from thin-film thickness monitoring instrument of typical deposition equipment, many static characteristics were obtained with following methods: t verify, regress analysis, variance analysis, sample standard deviation analysis and uncertainty analysis. 对典型镀膜仪的膜厚监视器的静态漂移数据,采用t检验、回归分析、方差分析、样本标准偏差和不确定度分析等方法获得其静态特性。
One of the important technic in the production of high efficiency thin-film CdTe solar cells is the CdTe film surface chemical etching before deposition of a metallic contact. 在镀上金属电极前,对CdTe表面进行化学蚀刻是制备高效率碲化镉薄膜太阳电池的关键技术之一。
Monitoring stability of optical thin-film deposition tester 光学镀膜仪的监控稳定性研究
Preparation and performance of YSZ thin-film by centrifugal deposition technique 离心沉积法制备YSZ薄膜及其性能
The homogeneous dielectric barrier discharges at atmospheric pressure could be of great interest for several industrial applications, such as surface modification, thin-film deposition, plasma sterilization, etc. Now it has become one of the main attention problems in the field of low temperature plasma. 大气压均匀的介质阻挡放电(DBD)在材料表面改性、薄膜沉积、杀菌消毒等领域具有重要的工业应用价值,目前已经成为低温等离子体领域的研究热点。
The optical properties of optical thin-film are related to each-layer thickness closely, in order to acquire optical thin-film product satisfying the requirement, the thickness must be monitored during the course of deposition. 光学薄膜的光学特性与其每一膜层的厚度密切相关,为了制备出符合要求的光学薄膜产品,在制备过程中必须监控膜厚。