碲化铅

我们对碲化铅纳米棒的生长机理进行了分析。

The growth mechanism of PbTe nanorods is discussed .

为了得到薄膜的最佳沉积工艺条件，本文给出了检验碲化铅材料性质的简便方法。

In order to obtain an optimum deposition condition a simple method to test PbTe coating material before its deposition is suggested .

热电材料碲化铅PbTe的晶体生长及物理性质研究

Study on crystal growth and physical property of thermoelectric material lead telluride PbTe

半导体碲化铅PbTe（001）表面几何结构特性的分析

Research on the Characteristics of Geometry Structure about Semiconductor Sead Salt PbTe ( 001 ) Surface

碲化铅单晶及薄膜物理特性的研究

Study on physical properties of PbTe single crystal and thin film

本文介绍碲化铅薄膜的光学性质和沉积工艺及其与原材料特性的关系。

The dependence of optical properties of PbTe films on the deposition process and the characteristics of coating material is presented .

采用碲化铅和硫化锌作为镀膜材料，研制了空间红外光学系统使用的红外多层带通滤光片。

A multilayer band pass infrared thin film optical filter has been designed and manufactured which use lead telluride and zinc sulfide as thin film materials .

从给出的实验结果可以看出，碲化铅原材料的配比和制备方法对光学薄膜的光学特性有着决定性的作用。

It is obvious from the experimental results that the stoichiometric proportions and preparing process of PbTe coating material play a very important role in this aspect .

卡纳茨迪斯团队将岩盐纳米晶体溶解在碲化铅内制造出了这种新材料。

Kanatzidis , co-author of the study , and his team dispersed nanocrystals of rock salt ( SrTe ) into the material lead telluride ( PbTe ) .

热面温度500℃，冷面温度50℃时，碲化铅/碲化铋级联温差电单偶的最大热电转换效率测试结果为8.45%。

The maximum conversion efficiency of PbTe / BiTe cascade unicouple is 8.45 % , when the cold and hot side temperature is 50 ℃ and 500 ℃, respectively .

富碲碲化铅薄膜的晶体结构、表面形貌、元素深度分布和中红外光学常数

Crystal structure , surface morphology , depth profile of elements and mid-infrared optical constants of TE-RICH lead telluride films