半导体纳米线还可以用来连接各种纳米器件;
Semiconductor nanowires can also be used as effective wires to connect different nanoscale devices.
具有概率特性的逻辑学适合表示纳米器件的状态。
The logics with probabilistic characterized is suitable for expressing the states of nano-device.
电子束曝光技术是掩模版制作和纳米器件研究的主要手段。
Electron beam lithography machine is the key instrument for mask making and research of nanometer device.
利用电子束光刻技术制作了基于钛酸钠纳米线的纳米器件。
Individual sodium titanate nanowire-based device is fabricated via e-beam lithography techniques.
这些成果对纳米复合材料和各种纳米器件的研究有指导意义。
This research is helpful in the field of the fiber composite nanometer thin films and nano-machines.
而密度泛函理论就是一种很有效的研究纳米器件的理论方法。
Density Functional Theory is a very useful theoretical method to study this kind of materials.
纳米加工是纳米技术的核心,也是实现下一代纳米器件的关键。
Nanofabrication is the key issue of nanotechnology, and also the critical event of achieving the invention of nanometer device.
在半导体工业,制造结构尺寸小于70纳米器件的能力允许器件的持续微型化。
The ability to fabricate structures with dimension less than 70nm allow the continuation of miniaturization of devices in the semiconductor industry.
纳米器件包括纳米电子器件和纳米光电器件,是未来新型仪器、设备生产与制造的基础。
Nanodevices includes nano-electronic devices and nano light electronic devices. It is the foundation of designing and manufacturing of new apparatus and equipage.
本一维纳米材料是优良的有机铁磁体材料。应用于纳米器件,将有利于纳米器件性能的改进。
The said one-dimensional nanometer material is excellent organic ferromagnetic material and may be used in preparing nanometer device with improved performance.
碳基一维纳米异质结由于其独特的结构与性能,以及在纳米器件方面的应用前景,得到了广泛的关注和大量的研究。
Onedimensional carbon nanometer heterojunctions (1DCNHJs) have attracted tremendous interest owing to their distinctive microstructures, properties and potential applications in nanometer devices.
中心的研究方向,主要从事微纳米加工技术、微纳米材料以及微纳米器件与系统的研究与应用,并为国内外产业及研究机构服务。
Thee current research fields of the center are micro and nano fabrication technologies, micro and nano materials, and micro and nano systems.
电子束曝光技术这些优势使电子束曝光技术不仅在掩模版制作方面一直处于主流地位而且将在纳米器件的研制和生产中发挥重要作用。
All these advantages make the technology not only be in the major position but also play an important part in the research and production of nanometer device.
这种简单的两步热蒸发方法的采用,也避免了通常要制备分层次纳米结构所必须的高的温度或复杂的合成过程,利于纳米结构在纳米器件中的应用。
This simple two-step method also avoids high temperature or some complicated process required in the previous synthesis methods, which will prompt the application of nanostructure in nanodevices.
该技术最终可能会用于设计不同形状的纳米级药物传输系统或者疾病诊断器件。
The technique could eventually be used to design custom-shaped, nano-scale drug-delivery systems and diagnostic devices.
每个电子盒包含许多纳米孔(尽管公司并没有说具体数目)和执行准备工作、检测工作及分析工作的所有微流体以及电子器件。
Each cartridge contains multiple nanopores (though the firm will not say how many) and all the microfluidics and electronics to carry out the preparation, detection and analysis.
同时,利用无机纳米半导体的光导特性,这种复合体系也可以制成光导与电致发光双功能器件,且其发光效率可有较大幅度提高。
Dual functions can also be achieved with high emission efficiency by benefiting from the photoconduction of the semiconductor nanocrystal and the electroluminescence of the polymer.
并尝试替换器件的中间金属纳米层,为拓展器件结构和制作方法做出一定的尝试性工作。
Try to replace the metal -nanocluster layer with different material and make some basic progress in expanding the structure and process of device fabrication .
纳米技术的最终目标是直接操纵单个原子和分子,制造新功能器件,从而开拓人类崭新的生活模式。
The final target of nanometer technology is to manufacture new function devices that can control atom or molecule directly.
纳米半导体量子点以其所具有的新颖光电性质与输运特性,正在各类量子功能器件中获得成功应用。
Nanometer semiconductor quantum dots have potential application in the novel quantum functional devices because of their unique photoelectric and transport properties.
不仅扩大了在传统产业中的应用范围,而且还可作为纳米结构的结构单元,用于自组装纳米功能器件等纳米结构材料。
It not only expands the application fields in the traditional industry but also USES as the structure unit of nanometer structure in the self-assembly nanometer function devices.
实验上已经发现硫氢官能团可以很强化学吸附于金表面上,从而可作为连接体用于纳米电子学中的分子器件。
The sulphur hydrogen functional group can be very strongly adsorbed on the gold surface, thus can be used as linking material in molecular device.
金属纳米晶存储器件具有低功耗、高速读写特性及较高的可靠性,因此近年来在非易失存储器研究领域备受关注。
In recent years, in the field of non-volatile memory research, metal nanocrystal memory with low-power, high-speed read and write characteristics and high reliability receives much attention.
纳米光电子技术是一门新兴的技术,近年来越来越受到世界各国的重视,而随着该技术产生的纳米光电子器件更是成为了人们关注的焦点。
As a new developing technique, the nanometer photoelectron technique is getting more notable in many countries of the world, and the nanometer photoelectron device is become the focus of attention.
纳米硅薄膜具有独特的结构和许多优异的光电性能,可望应用于新型光电器件、大规模集成电路等领域。
Nanocrystalline silicon films have special structure and many excellent optoelectronic properties, and are supposed to be applied in optoelectronic devices and large scale integrated circuits.
作为理想的电磁元器件,碳纳米管环引起了人们的特别的注意。
As an ideal electromagnetic element, the carbon nanotube ring (CNTR) has attracted much interest ever since its discovery.
作为理想的电磁元器件,碳纳米管环引起了人们的特别的注意。
As an ideal electromagnetic element, the carbon nanotube ring (CNTR) has attracted much interest ever since its discovery.
应用推荐