1) rare-earth functional films
稀土功能薄膜
1.
Ion beam epitaxy(IBE) technology is a significant method for preparing high pure and high quality rare-earth functional films at low growth temperatue.
介绍了一种利用离子束外延(Ion-beam Epitaxy,IBE)技术制备生长高纯稀土功能薄膜的新方法。
2) rare earth films
稀土薄膜
1.
The optical properties of the rare earth films can be varied reversibly by using the gas hydrogen absorption/desorption method or by electrochemical charging/discharging method.
具有可转换光学特性的稀土薄膜是一类新型的光学薄膜 ,采用气态吸放氢或电化学充放电方法 ,可以使稀土薄膜的光学特性发生可逆变换。
3) functional film
功能薄膜
1.
The paper first gives a brief introduction to the concept of nanometer, nanostructure, nano-functional films, etc.
文章阐述了纳米、纳米结构、纳米功能薄膜材料等概念,重点评述了纳米金属氧化物光电功能薄膜、非织造布表面功能化材料的研究现状,提出了运用低温等离子磁控溅射表面沉积技术在非织造布表面构建光电功能纳米结构材料的设想,并展望了它的前景。
2.
Titanium dioxide photocatalytic thin film is a kind of functional film to which many attentions are paid by many researchers at present.
二氧化钛光催化薄膜是目前备受科研工作者关注的一种功能薄膜材料,利用T iO2薄膜在紫外光照射下所表现出的特有的光催化特性,如高的光催化活性、强的氧化性、超亲油亲水等,可将其用于污染治理、杀菌抗菌、防污自清洁、防雾等场合,在环境保护、医疗卫生、建筑等领域有着重要的应用前景。
3.
TiO2 functional film was prepared through solgel process.
用溶胶-凝胶法制备了TiO2功能薄膜,采用SEM,TG DTA等手段研究了TiO2薄膜的结构和表面形态,并对TiO2薄膜的光催化活性进行了评价。
4) functional thin films
功能薄膜
1.
The classification, variety and characteristics of functional thin films were stated in this paper.
阐述了功能材料的分类方法、种类以及功能薄膜的性能特点,指出功能薄膜在解决通讯技术、环境以及能源等诸多领域中的重要作用和地位。
2.
In this paper, we introduce briefly the principle,the characteristics and the advantages of this technique and review its intensive applications in the study of functional thin films.
本文简要介绍了脉冲激光制膜技术的原理、特点和优势以及在功能薄膜研究中的应用。
3.
Many functional thin films are involved in the structure of TEFL device, and the properties of TFEL device are attributed to the materials and the fabrication methods of functional films.
TFEL器件的结构中包括了多种功能薄膜的应用,器件性能的好坏决定于各种功能薄膜的合理选择及其制备工艺。
5) functional films
功能薄膜
1.
A new way called chemically modified sol-gel method for preparing patterned functional films is introduced.
介绍了一种功能薄膜微细图形制备新方法—化学修饰溶胶-凝胶法。
2.
The fine-patterning process of semiconductors with silica as the representative has reached the level of submicron even nanometer scale, while the fine-patterning process of functional films, derived from that of semiconductors, is by now still far more behind that level.
以硅为代表的半导体的微细加工技术已达到了亚微米甚至纳米级的水平,而沿用半导体微细加工技术的功能薄膜的微细加工则远达不到这样的水平,其主要原因之一是由于功能薄膜通常含有多种化学组元,各种元素的抗蚀能力不同,与硅半导体相比,微细图形制备具有更大的难度。
6) Oxide rare earth thin film
稀土氧化物薄膜
补充资料:稀土石榴石单晶薄膜磁光材料
分子式:
CAS号:
性质:用外延生长法在常用衬底Gd3Ga5O12单晶(111)晶面上生成稀土石榴石单晶薄膜材料。恒温5~30min,可得薄膜2~30μm。利用生长工艺参数的变化可制取不同组成和性能的磁光薄膜材料。
CAS号:
性质:用外延生长法在常用衬底Gd3Ga5O12单晶(111)晶面上生成稀土石榴石单晶薄膜材料。恒温5~30min,可得薄膜2~30μm。利用生长工艺参数的变化可制取不同组成和性能的磁光薄膜材料。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条