鲍哲南团队发现的这种聚合物不需要被移除,最终的产品是一种半导体纳米管和聚合物油墨,能够用于制造可印刷电子产品。
The polymer in Bao's process does not need to be removed. The final product is a semiconducting nanotube and polymer ink that can be used to make printable electronics.
所以,研究组成员想出了一个办法,将导电纳米管覆在一聚合体上,这样不仅可以保护电荷,而且还能使油墨完全呈半导体性质。
So instead, the team devised a way to coat the conducting nanotubes in a polymer to protect the electric charge and allow the ink to be purely semiconducting.
把这种聚合物和碳纳米管在一种溶剂中混合,可以将半导体管和导体管分离开。
Mixing the polymer with commercially available carbon nanotubes in a solvent separates semiconducting tubes from conducting tubes.
鲍哲南团队使用了一种聚合物,通过环绕半导体纳米管和非导电纳米管混合物,能够有选择地将它们分类。
Bao's group USES a polymer that selectively sorts the mixture by wrapping around semiconducting nanotubes, and not conducting nanotubes.
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.
副课程有:塑料聚合工程技术、冶金学技术、化学工程技术以及半导体制造技术等等。
Subtopics include: plastic and polymer engineering technology. metallurgical technology. chemical engineering technology as well as semiconductor manufacturing technology. among others.
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.
论述了聚合物管道的主要特性、焊接工艺及其在半导体、制药和生物工程等行业内高纯或超纯物料输送方面的应用。
Expound main features, welding procedure and application of high purity and super purity stream-conveying in semiconductor, pharmaceutical and biology Engineering of polymer pipeline.
金属、半导体、陶瓷和聚合物的电性、光学性、磁性和机械特性。
Electrical, optical, magnetic, and mechanical properties of metals, semiconductors, ceramics, and polymers.
共轭聚合物作为一种有机半导体,在高新技术的应用非常广泛。
As a new kind of organic semiconductor, conjugated polymers have very extensively applications in scientific frontier and high-technology.
利用纳米半导体的高电荷输运性,也可以增强电致发光聚合物发光层的效率。
Meanwhile, the inorganic semiconductors with high-charge transporting abilities could enhance the emission efficiency of the electroluminescent polymer emitter.
导电聚合物的导电机理不同于金属,也不同于无机半导体。
Mechanism of conducting polymers is different from metals and semiconductors.
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.
导电聚合物半导体的最大特点是掺杂物在工作条件下可以移动。
Sunlight may be converted into electrical or chemical energy by semiconductors composed of suitably doped polymers (e. g. polyaeetylene) .
实验结果显示这种聚合物光栅在制作低次分布反馈有机半导体激光器中有潜在的应用。
The experimental results indicate that such polymer gratings have promising potentials for the fabrication of low-order DFB organic semiconductor lasers.
有机半导体基质包括聚合物、共聚物或稳定化并五苯之一。
The organic semiconductor matrix includes one of a polymer co-polymer or a stabilized pentacene.
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.
半导体聚合物包括源自噻吩、吡咯、苯胺和多环杂芳族化合物的聚合物或共聚物。
Semiconductive polymers include polymers or copolymers derived from thiophenes, pyrroles, anilines, and polycyclic heteroaromatics.
半导体聚合物包括源自噻吩、吡咯、苯胺和多环杂芳族化合物的聚合物或共聚物。
Semiconductive polymers include polymers or copolymers derived from thiophenes, pyrroles, anilines, and polycyclic heteroaromatics.
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