We have a program of printing organic electronics.
我们有一个项目,关于有机电子印刷。
Their work led to the field of organic electronics and opened the way to a host of organic electronic devices which has resulted in several commercial applications.
他们的工作开启了有机电子研究,随后相继出现了各种具备应用价值的有机电子器件。
Recent advances in the field of organic electronics are enabling the production of ultra-thin highly flexible active-matrix "system-on-plastic" electrophoretic displays.
有机电子领域的最新进展,使得制造超薄的高柔性有源矩阵“塑料上系统”电泳显示器成为可能。
So examples of that are tying to apply the work for like printed organic electronics to electronic paper, flexible media that can be used to really truly become digital media, flexible digital media.
例如我们,将研究用于,有机印刷电子,电子纸,让灵活媒体,变成真正的,电子媒体,灵活的电子媒体。
The chemistry of the organic monolayer is not critical; the switch works with many different molecules and so can be used with many different self-assembled molecular electronics systems.
——这种有机单分子层的化学性并不是临界的;开关与许多不同的分子一道起作用,开关也能与许多不同的自我组装分子电子系统一块使用。
Organic and printed materials can also be used to make stretchable electronics, but they can't match silicon in terms of speed.
有机物和印刷材料同样可以用来制造可伸缩元件,但是它们都无法在变化速度上与硅达到同步。
It supplies a new design idea for application of organic compounds on electronics, so as to create new types of organic electronic devices.
这为有机分子在电子学的应用方面,提供一种新的思路,从而设计新的有机电子器件。
Electronics companies are expected to unveil even thinner televisions in the near future based on new screen technology known as organic light emitting diode (OLED).
人们期待电子公司能够在不远的将来,借助新型显示器技术即众所周知的有机发光二极管,制造出更薄的电视。
How to reach the ultimate miniaturization limit of molecular electronics and related nanoscale patterning techniques of organic materials will also be discussed.
亦将讨论如何达到分子电子学和有机材质相关的纳米级制像技术的微缩极限。
Metal-organic complexes have a wide range of applications, due to their special properties in electronics, optics, magnetics, selective catalysis and molecular recognition.
配位化合物由于在电子、光学、磁化学、选择性催化和分子识别等方面具有特殊性能而在诸多领域具有广阔的应用前景。
Metal-organic complexes have a wide range of applications, due to their special properties in electronics, optics, magnetics, selective catalysis and molecular recognition.
配位化合物由于在电子、光学、磁化学、选择性催化和分子识别等方面具有特殊性能而在诸多领域具有广阔的应用前景。
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