Electron beam lithography is the key technology in nano-electronics,and especially plays an irreplaceable role in micro-nano-fabrication.
电子束光刻技术是推动微米电子学和微纳米加工发展的关键技术,尤其在纳米制造领域中起着不可替代的作用。
In the end, it delivers some keys how nano-fabrication drives subwavelength optical elements to develop and what need to be improved in the future.
介绍了新颖的纳米结构亚波长光学器件的特点,从器件的基本功能特性和工作机理两个方面详细讨论了其应用状况,并阐述了纳米制造技术对亚波长光学器件发展的重要推动作用及这一领域今后的研究热点。
The key techniques based on the bottom-up self-assembly approach for nanofabrication are reviewed.
介绍了“自底而上”的自组装纳米制造方法中的一些关键技术。
The Fading Color Reaction of Netilmicin with Congo Red and Its Application to the Spectrophotometric Determination of Netilimicin;
奈替米星-刚果红分光光度法测定奈替米星
Post Antibiotic Effect of Netilmicin Combined with Ceftazidime;
奈替米星与头孢他啶联合应用的抗生素后效应
Prophylactic and Therapeutic Effects of Ginaton on Netilmicin-induced Ototoxicity in Guinea Pig;
金纳多对奈替米星致耳毒性模型豚鼠的预防和治疗作用研究
Ideas for nanofabrication are coming from many directions in a wonderful free-for-all of discovery.
奈米制造的新点子,正以一种包含无限可能的美妙方式,从各个方向涌入。
Microelectronics rests on techniques that routinely fabricate structures almost as small as100 nanometers across( that is,100 billionths of a meter).
微电子学依赖的,是能够反覆制造出结构小至100奈米(公尺的千万分之一)技术。
They have also combined advances in nanotechnology and microfabrication to make implantable microchips that can deliver drugs precisely and on schedule.
他们也结合奈米科技与显微合成技术,制造了植入式微晶片,使其能定时定量投药。
THE INTEREST in nanostructures is so great that every plausible fabrication technique is being examined.
人们对奈米结构的兴趣这麽高,使得所有可行的制造技术都经过检验。
This course introduces the theory and technology of micro/ nano fabrication.
本课程介绍了微米╱奈米制程的理论和技术。
Therefore, four micron-scale wires can control 16 nanowires.
因此,四根微米尺寸的导线可以控制16根奈米导线。
Past carbon nanotube transistors were typically constructed atop silicon composites common in the electronics industry.
奈米碳管电晶体以往通常在电子工业常用的矽复合材料上面制作。
The next step is coming up with a nanotube material that has a high efficiency in pure visible light.
下一步就是制作在纯可见光下同样具有高效率的奈米管材料。
But these self-replicating nanobots can also be quite scary.
然而,这些能自我复制的奈米机器人,也可能有相当骇人的一面。
The development of nanotechnology will depend on the availability of nanostructures.
奈米技术的进展有赖于奈米结构的取得。
The Fading Color Reaction of Netilmicin with Congo Red and Its Application to the Spectrophotometric Determination of Netilimicin
奈替米星-刚果红分光光度法测定奈替米星
To get its prototype, the team had to create silicon pillars each roughly300 nanometers wide and spaced about two microns apart.
为了制作原型产品,团队必须制作出直径约300奈米,彼此间隔约2微米的矽柱。
A few inorganic structures of nanometer scale-minute crystals, for instance-have already been commercialized, notably as contrast agents.
少数奈米尺度的无机构造,像是微晶体,已经商品化了;出名的例子是对比剂。
The device, called a nanobattery, shrinks features of the electrodes to the nanometer scale.
这种称为「奈米电池」的装置,将电极的线宽缩小到奈米尺度。
The genesis of the nanobattery springs from an earlier Bell Labs foray into nanotechnology.
奈米电池的开发缘起于贝尔实验室先前进军奈米科技的行动。
Study on the Chromogenic Reaction of Netilmicin with Sodium 1,2-Naphthoquinone-4-sulfonate and the Determination of Netilmicin by Spectrophotometry
奈替米星和1,2-萘醌-4-磺酸钠显色反应的研究及对奈替米星的测定
This course introduces the theory and technology of micro/nano fabrication.
本课程介绍了微米/纳米制造的理论和技术。
Thousands of engineers would be required to design these high-density nanotechnology chips using standard methods.
若用制式方法来设计这种高密度的奈米科技晶片,必须动用数千名工程师。
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