基于以上理论和技术,实现了具有一定性能的有机电致发光二极管和七段数码显示。
Based on above principles and techniques, we demonstrate both organic light-emitting diodes and seven segment OLED display having adequate performance for display applications.
在2012年的时候,Adachi团队用这种方法研发出一种绿色有机电致发光二极管。
In 2012, Adachi's group produced a green LED using this process.
此装置可以让人们有可能制造频率接近1千兆赫(10亿赫兹)的纠缠光子对电致发光二极管。
This device could make it possible to manufacture electroluminescent diodes of entangled photon pairs, with rates close to one gigahertz (in other words around on billion Hertz).
有机电致发光二极管显示技术与液晶、等离子等平板显示技术相比具有很多优势及市场竞争力,被称为第三代显示技术。
Organic Light-emitting Diode(OLED), possessing many kind of advantages, and market competitive potentials over LCD and PDP et al, is called the third generation display technology.
2014年,诺贝尔物理学奖被授予了蓝色氮化镓电致发光二极管的研发。由此可见,蓝光的释放对于多色和白色电致发光二极管的研制是至关重要的。
For the production of a multicolour or white LED, emission of blue light is crucial the 2014 physics Nobel prize was awarded for the development of blue gallium nitride LEDs.
2014年,诺贝尔物理学奖被授予了蓝色氮化镓电致发光二极管的研发。由此可见,蓝光的释放对于多色和白色电致发光二极管的研制是至关重要的。
For the production of a multicolour or white LED, emission of blue light is crucial the 2014 physics Nobel prize was awarded for the development of blue gallium nitride LEDs.
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