The technology of amplifying solar energy can save the number of semiconductor materials required for photovoltaic cells.
通过放大太阳能的技术可以节约光伏电池所需的半导体材料的数量。
Jim: What semiconductor materials are most popular for your customers?
吉姆:在你的客户中哪些半导体材料用的比较多?
And its basic structure is an electroluminescent semiconductor materials.
它的基本结构是一块电致发光的半导体材料。
Since then graphene has become one of the hottest topics in semiconductor materials science.
此后石墨烯已经成为半导体材料科学领域最热门的研究方向之一。
This class focuses on the physics of the interaction of photons with semiconductor materials.
本课程著重于光子与半导体材料之交互影响的物理学上。
The invention discloses a vertical transistor with high magnification based on organic semiconductor materials.
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。
Recently, research on nano-semiconductor materials in photo-electronic fields has drawn more and more interest.
近年来,纳米半导体材料特别是纳米硅在光电子领域中的研究已经越来越引起人们的注意。
The principle of photocatalytic oxidation applied to organic pollutants by using semiconductor materials is described.
简述了半导体光催化氧化法的原理。
An instrument based on area array CCD devices for measuring stresses in semiconductor materials is studied and realized.
研究和实现了采用面阵CCD器件的半导体材料应力测试仪。
The research of radiation damage in semiconductor materials is the basis of that in electronic systems and their hardening.
半导体材料的辐射损伤研究是电子系统辐射损伤及其加固研究的基础。
There is a promising application in the study of stimulated emission of organic semiconductor materials such as conjugated polymer.
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。
It can be used for investigation to detect defects and shallow impurities, and to show their distributions in semiconductor materials.
它可以用来探测材料中的缺陷及浅能级杂质,显示其分布。
However, the rapid improvements of OFET's performances mostly profit from research achievements in new 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。
A large number of researches have shown that the low dimensional semiconductor materials are one of the ideal nonlinear optical materials.
大量研究均表明可以人工合成的低维半导体材料是非常理想的非线性光学材料之一。
By contrast, photovoltaic solar power systems, mostly used on home rooftops, let light interact directly with semiconductor materials to generate power.
安装在住宅屋顶的太阳能光伏系统则与其相反,它让光线直接照射半导体材料以产生动力。
It is one of the most important and most mature compound semiconductor materials, mainly used in the field of optoelectronics and microelectronics.
它是目前最重要、最成熟的化合物半导体材料之一,主要应用于光电子和微电子领域。
In the framework of the colloidal chemistry approach, high quality nanocrystals of different II-VI and III-V semiconductor materials can now be obtained.
在胶体化学进展的框架下,现已获得不同II-VI型和III-V型半导体材料的高质量纳米晶。
This paper discusses the advantages of superlattice semiconductor materials (Multiple Quantum Well Structure) in optical switching and optical computing.
本文讨论了超晶格半导体材料(多层量子阱结构)在光开关和光计算中应用的优越性。
A low-temperature radiation heater and substrate heater are designed and made aiming at the low evaporating temperature of organic semiconductor 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。
While many semiconductor materials can produce an electric potential when heated, through something called the Seebeck effect, that effect is very weak in carbon.
然而很多半导体材料(semiconductor material)在加热时能够通过塞贝克效应(Seebeckeffect)这种形式产生电势能(electric potential),但是在碳中发生的塞贝克效应很微弱。
A computational design of the semiconductor materials with specific functional has been became an important research field in computational materials science.
具有特定功能的半导体材料的计算设计,是计算材料科学的一个重要研究领域。
By changing the composition of the semiconductor materials, it is possible to determine the amount of energy given up by each electron, and hence the light's colour.
改变半导体材料的构成可以改变电子能量释放的多少,从而改变光的颜色。
The study of the dislocation structures and their moving characters in Si can help to solve the problem of improving the performance of semiconductor materials.
对硅的位错形式和运动特性的研究对于进一步提高此类半导体器件的性能提供了理论上的帮助。
The temperature of some metal materials and semiconductor materials have been described, and the melting damage threshold and boiling damage threshold were calculated.
给出了一维空间中激光热损伤的简化近似数学模型,并以此模型为基础计算了金属材料铝、银、铜的温度场分布和熔融阈值与汽化阈值。
The photoelectrochemistry of semiconductors has been widely used for the investigation of compound semiconductor materials and for the improvement of device technologies.
半导体光电化学已广泛用于化合物半导体的材料测试和器件工艺。
In recent years, with the extensive application of short wavelength devices, the research of direct wide band gap semiconductor materials attracted more and more attention.
近年来,随着短波长光电器件的逐渐广泛应用,直接宽禁带半导体材料的研究越来越受到人们的重视。
The dissertation is devoted to the properties study of diamond and zinc nitride semiconductor materials from first-principles, molecular orbital theory and semiconductor theory.
本论文的工作是通过第一性原理计算,结合分子轨道理论和半导体理论等对金刚石和氮化锌半导体电子材料的相关性质进行探索和研究。
Semiconductor materials, such as titania, zinc oxide, cadmium sulfide and cadmium telluride have excellent UV absorption property to generate photoelectrons, which form photocurre…
二氧化钛、氧化锌、硫化镉、碲化镉等半导体材料对紫外光具有很好地吸收性能。
Semiconductor materials, such as titania, zinc oxide, cadmium sulfide and cadmium telluride have excellent UV absorption property to generate photoelectrons, which form photocurre…
二氧化钛、氧化锌、硫化镉、碲化镉等半导体材料对紫外光具有很好地吸收性能。
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