It would be a natural evolution of microelectronics to become nanoelectronics.
它是从微电子学到奈米电子学的自然演进。
The thiol group can be attached to gold surfaces strongly and thus can be used as a bridge for molecular wires in nanoelectronics.
硫氢官能团可以很强地吸附于金表面上,从而可作为连接体用于纳米电子学中的分子器件。
As the research of Vacuum Nanoelectronics (VNE) is attracting more attention, many progresses have taken place in the field of field emission devices (FED).
随着真空纳电子学(VNE)越来越受到关注,对于场致发射显示器件(FED)的研究不断深入。
Nowadays the gold nanoparticles are attracting great attention due to their unique optical, electronic, catalytic properties and potential application in future nanoelectronics.
金纳米粒子以它独特的光学、电学和催化性质以及在纳米级电子线路中的应用潜力,受到人们越来越多的关注。
IMPROVE is half funded by European partners with the other half publicly funded by the European Commission through the European Nanoelectronics Initiative Advisory Council (ENIAC).
IMPROVE项目一半资金来自欧洲合作伙伴的支持,另一半由欧洲委员会通过欧洲纳米电子行动顾问委员会招募资金共同支持。
From the point of view of potential applications, the position of gold in nanotechnology, including nanoelectronics, nanoparticle catalysis and applications in medicine was reviewed.
从应用的角度出发,对金的纳米技术中的地位,包括纳米电子学、纳米粒子的催化和在生物医学中的作用进行了评价。
The atomic wire bridged two metal electrodes is regarded as molecular junction in the nanoelectronics, and is focused on the study of lowdimensional electron transport field nowadays.
桥接到金属电极上的原子线,在纳米电子学中被视作一种分子联结,是当前低维系统电子输运研究中的热点。
The atomic wire bridged two metal electrodes is regarded as molecular junction in the nanoelectronics, and is focused on the study of lowdimensional electron transport field nowadays.
桥接到金属电极上的原子线,在纳米电子学中被视作一种分子联结,是当前低维系统电子输运研究中的热点。
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