在一个实施方案中,薄膜晶体管包含有机半导体材料层。
In one embodiment, a thin film transistor comprises a layer of the organic semiconductor material.
有机半导体材料是OFET区别于传统场效应晶体管的根本所在。
Organic semiconductor material is the primary factor which differentiates OFET from traditional field-effect transistor.
本发明公开了一种基于有机半导体材料的高放大倍率的垂直型晶体管。
The invention discloses a vertical transistor with high magnification based on organic semiconductor materials.
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.
针对有机半导体材料的蒸发温度低的特点,设计并制作了低温辐射式加热器。
Based on the low evaporation temperature of organic semiconductors, a radioactive heater-crucible assembly was developed for vacuum evaporation coating and sputtering coating systems.
盘状液晶有较高的载流子迁移速率,作为有机半导体材料有广泛的应用前景。
Discotic liquid crystals possess high charge carrier mobility and show huge potential application as organic electronic materials.
针对有机半导体材料的蒸发温度低的特点,设计并制作了低温辐射式加热器和衬底加热器。
A low-temperature radiation heater and substrate heater are designed and made aiming at the low evaporating temperature of organic semiconductor materials.
然而,有机场效应晶体管性能的快速进步,主要得益于新型有机半导体材料方面的研究进展。
However, the rapid improvements of OFET's performances mostly profit from research achievements in new organic semiconductor materials.
本发明的有机半导体材料与噻吩齐聚物相比具有高的热稳定性及环境 稳定性、高纯度和高迁移率等;
The organic semiconductor material of this invention has high thermal stability, environment stability, high purity and high mobility. ect compared with thiophene oligomer;
概述了有机半导体材料产生激光的特性,介绍了贝尔实验室第一个有机固态电注入型激光器的工作原理。
The characteristics of the organic semiconducting materials and principle of the first electrically pumped solid state organic laser at the Bell laboratory are outlined.
电子组件——四千个晶体管组成的逻辑门电路所形成的微处理器核心——使用并五苯材料制成,这是一种易弯曲的有机材料,能作为某种半导体使用。
The electronic components-4, 000 transistors organised into the logic gates that form the core of a microprocessor-are made of pentacene, a flexible organic material that can act as a semiconductor.
电子组件——四千个晶体管组成的逻辑门电路所形成的微处理器核心——使用并五苯材料制成,这是一种易弯曲的有机材料,能作为某种半导体使用。
The electronic components-4,000 transistors organised into the logic gates that form the core of a microprocessor-are made of pentacene, a flexible organic material that can act as a semiconductor.
本论文分为三部分,分别为介孔材料MCM-41与半导体硫化镉的组装,MCM-41与荧光染料曙红的组装以及MCM-41与有机发光配合物铕-苯甲酸-邻菲咯啉的组装。
There are three parts in the dissertation: MCM-41 mesoporous material and semiconductor assembly, MCM-41 and fluorescence dye Eosin Y assembly, and MCM-41 and rare earth complex assembly.
有机电子材料作为一种新型电子材料,不但具备半导体的光学和电学特性,而且保留了有机物优良的加工处理和机械性能。
They are a novel class of electronic materials which combine the optical and electronic properties of semiconductors with the processing advantages and mechanical properties of polymers.
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.
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.
因此,设计和制备新型有机场效应半导体材料的研究工作显得尤为重要。
Therefore, the design and preparation of the organic field-effect materials is very important.
在高千穗,我们供应化合物半导体以及硅派半导体使用的有机金属材料。
At Takachiho, we supply various organometallics for compound semiconductors and silicon-based semiconductors.
用有机半导体、导体材料制造出各种电子器件、光电器件、光学器件的梦想正在逐步变为现实。
The dream of using semiconducting and metallic polymers for fabricating novel photonic devices, electronic devices, and optical devices is becoming reality.
用有机半导体、导体材料制造出各种电子器件、光电器件、光学器件的梦想正在逐步变为现实。
The dream of using semiconducting and metallic polymers for fabricating novel photonic devices, electronic devices, and optical devices is becoming reality.
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