Nano electronics will be the core and hot point concerned by all scientific and technological circles at the information age of the 21st century.
纳米科学技术将成为二十一世纪信息时代的核心和国际科学界和工程技术界关注的热点。
The electronics industry is taking advantage of micro and nano-fabrication technology by using it in bio-technology sensing, optical filtering and light control components.
电子工业正利益于微米和纳米制造技术,将其应用在生物技术传感、光学过滤和灯光控制组件方面。
Most recently, he has examined the fundamental limits of information and computing, which has led to his current research in nano-electronics and -photonics.
近期他研究了信息与计算的基本极限,将他的研究领域扩展到了纳米电子学和纳米光学。
The materials of semiconductor hetero-epitaxy and quantum dots are widely used in the fields such as nano-electronics and optoelectronics.
半导体异质外延材料和量子点材料在纳米电子学、光电子学中具有广泛的应用前景。
Therefore, if DNA is a conductor, it will be the ideal material for nano-line and molecular electronics.
因此,如果DNA具有导电性,将是纳米导线及分子器件的理想材料。
Nano-materials have the preternatural interface structures and unique functions and its properties are largely changed in electronics, mechanics, magnetic and optics et al.
纳米材料具有奇异结构和特异的功能,材料的电学、力学、磁学以及光学性质等发生了巨大的变化。
These devices themselves and the techniques of designing such devices have been now the hot research topics in the field of micro-nano-electronics.
器件和器件设计技术是微纳电子学的一个研究热点。
Quantum dots (QDs) have great electrical, optical properties and wide potential applications on nano-electronics, opto-electronics and quantum calculation in future.
量子点具有优异的电学和光学性能,在未来的纳米电子学、光电子学和量子计算等领域具有广泛的应用前景。
Quantum dots (QDs) have great electrical, optical properties and wide potential applications on nano-electronics, opto-electronics and quantum calculation in future.
量子点具有优异的电学和光学性能,在未来的纳米电子学、光电子学和量子计算等领域具有广泛的应用前景。
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