以共轭聚合物为代表的有机半导体材料的受激发射研究具有巨大的应用前景。
There is a promising application in the study of stimulated emission of organic semiconductor materials such as conjugated polymer.
这套系统可以用于研究高电阻的材料,例如在半导体基体上的绝缘薄膜,DLC和压电薄膜,导电聚合物等。
This system can be used in research of high-resistance materials such as thin dielectric layers on semiconductors, DLC and piezo-films, conductive polymers etc.
迄今为止,人们已经利用离子注入技术在光学晶体、玻璃、半导体以及有机聚合物等大量光学材料中形成了光波导结构。
Up to now, many waveguide structures have been formed by ion implantation in various materials such as optical crystals, glasses, semiconductors and polymers, etc.
有机电子材料有时也称为有机半导体、导电聚合物、导电高分子、导电塑料、共轭聚合物等。
Organic electronic materials are also called organic semiconductors, conducting polymers, conducting plastic, conjugated polymers et al.
聚合物能带隙工程作为半导体聚合物研究的新兴领域,对于半导体聚合物材料的应用以及半导体聚合物器件的各项性能的提高起着非常重要的作用。
Polymer band gap engineering is a new field on semiconducting polymers research. It is important for applications of semiconducting polymers and improvement of properties of their devices.
聚合物能带隙工程作为半导体聚合物研究的新兴领域,对于半导体聚合物材料的应用以及半导体聚合物器件的各项性能的提高起着非常重要的作用。
Polymer band gap engineering is a new field on semiconducting polymers research. It is important for applications of semiconducting polymers and improvement of properties of their devices.
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