它们皆具有特殊的光学和电学性质。
本文测试了带张应力铝纳米梁的电学性质。
This paper tests the electrical character of the al nano-beams with tensile stress.
对区熔后的硅膜结构和电学性质进行了研究。
The structure and electrical properties of silicon film after ZMR are studied.
采用异质结超注原理分析了开关的电学性质;
The electricity character of the switch is analysed by theheterojunction ultra high injection principle.
光伏效应是研究电学性质的一种很重要的方法。
Photovoltaic spectra is a very useful tool to study the electronic properties of semiconductor material .
本文首先讨论了碳纳米管膜电学性质的理论研究。
First, electrical properties of carbon nanotube films have been studied theoretically.
对制备的样品的结构、光学和电学性质进行了研究。
The structural, optical and electrical properties of samples were investigated in detail.
碳纳米管有着众多独特的性质,尤其是它的电学性质。
Carbon Nanotube has many extraordinary properties, especially its electrical properties.
碳纳米管以其特有的电学性质而成为一种优良的冷阴极材料。
With its unique electric characteristics, carbon nanotube is an excellent material for cold cathode.
晶体管本底数据的汇聚特性可以用来研究晶体管的电学性质。
The convergent characteristic of base data can be used to study the electrical character of transistor.
钛酸钡粉体的制备方法及掺杂方式对陶瓷的电学性质有很大影响。
The preparation and doping method influences the electrical properties of barium titanate strongly.
合成了多种类型的稀土复合氧化物,研究它们的结构、电学性质。
The rare earth complex oxides with different types have been synthesized. Their structures and electric properties have been investigated.
其次对碳纳米管膜在流动的电解质溶液中的电学性质进行了研究。
It is indicated that the voltage was induced in the films when the electrolytes flow on the carbon nanotube films surface.
与位错核心相联系的悬空键在很大程度上决定着位错的光学电学性质。
The dangling bonds associated with the dislocation core determine to a large extent the electrical and optical properties of the dislocations.
抛光好的片子还要进行许多测试,如外观,晶体完整性,以及力学和电学性质。
Polished wafers are subjected to a number of measurements that are concerned with cosmetic, crystal perfection, mechanical, and electrical attributes.
根据这些现象分析了缺陷的属性、快速恢复机理和缺陷对材料电学性质的影响。
The nature of defects, as well as their recovery mechanism and influence on material property have been discussed from the results.
本文介绍了PPV及其衍生物的合成方法、电学性质、非线性光学性质及应用。
The synthesis of PPV and its derivatives are described. Their electronic properties and nonlinear luminescence are discussed. Potential commercial usage of PPV and its derivatives are also presented.
通过原子力显微镜和共聚焦荧光显微镜对其形貌、电学性质和荧光图像进行了表征。
The film morphology, electric and luminescent properties are studied in detail by atomic force microscopy and confocal fluorescent microscopy.
NITS的电学性质经电子顺磁谱表征,并首次利用电化学分析探讨了其反应机理。
ITS electronic properties were characterized by ESR spectra, and furthermore, the reaction mechanism of NITS has been first studied by electrochemical analysis.
DNA分子的电荷输运实验显示DNA分子呈现出导体、半导体、绝缘体等丰富的电学性质。
The experiments of charge transport in DNA molecular have shown that DNA molecular may be conductor, semiconductor or insulator.
为了寻找薄膜结构和电学性质的关系,对薄膜的形貌、结构和基于SCLC方法的电学特性进行了探讨。
The pattern, structure and electrical property based on SCLC method of the films are discussed to seek for the relations of the film structure and the electrical property.
研究发现,与空管相比,填充碳纳米管常常表现出更强的轴向和径向强度以及不同于常规材料的光电学性质。
Compared with hollow CNTs, the filled CNTs generally present the high strength both in axial and radial directions, also have exotic optical and electronic properties different from hollow CNTs.
电气石的异极对称结构导致了其独特的电学性质——永久性自发电极性,表现为电气石微粒周围自发电场的存在。
Tourmaline with polar asymmetry structure has its particular electric characteristics-spontaneous polar electricity, which show as electrostatic electric field existing around mineral particles.
光子晶体的应用源于光子晶体所具有的各种特殊光学和电学性质,而这些性质又是由晶体的光子带隙结构决定的。
The applications of photonic crystals are attributed to the special properties of electronic and optic area, and such properties are depend on photonic band structures.
金属纳米粒子,尤其是金和银纳米粒子,由于其尺寸,形状,以及独特的光学和电学性质,近年来受到极大的关注。
Nanosized particles of metals, particularly silver and gold, have recently received increasing attention, due to their size, shape and environmental tunable optical and electrical properties.
在他们2004年最初的工作中,他们不仅成功制备了石墨烯,并且通过把它制备成不同图案并连上电极表征了它的电学性质。
In their initial work, in 2004, they not only demonstrated that they had made graphene, but also elucidated its electrical properties by patterning it and connecting it to electrodes.
本文利用热灯丝化学气相沉积法(HFCVD)制备了纳米量级的碳薄膜材料,对它的电学性质及场发射性质进行了详细的研究。
In this dissertation, extensive researches on the electrical and field emission properties of nano-carbon films prepared by hot filament chemical vapor deposition (HFCVD).
其研究工作包括有机高分子材料、有机小分子材料和有机分子晶体材料的电学、光学等性质。
The electrical and optical properties of organic polymer, small molecular, molecular crystal semiconductors and so on have been studied.
实验结果表明,这种薄膜的电学和光学性质依赖于混合气体中的氧浓度、衬底温度以及沉积后的热处理。
The electrical and optical properties of the films were found to depend on the oxygen concentration in the gas mixture and the substrate temperature as well as the post-deposition heat treatment.
实验结果表明,这种薄膜的电学和光学性质依赖于混合气体中的氧浓度、衬底温度以及沉积后的热处理。
The electrical and optical properties of the films were found to depend on the oxygen concentration in the gas mixture and the substrate temperature as well as the post-deposition heat treatment.
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