light-emitting material 中文意思是什麼
light-emitting material
解釋
發光材料-
Although many achievements have been acquired in oled structure material, production technology, drive methods, oled technology is just at the beginning, oled has given an equal chance for every company and country, and it is very important for our country to develop displaying technology of our own. the research direction of oled is managing to improve the device lifetime, at the same time found a perfect production technological flow and the global standard production mode. it is still a arduous mission that we want to live up to a batch production of oled displays in the future some years. active matrix organic light emitting diode ( am - oled ) adopts a circuit structure based on matrix addressing, and its driving circuit includes pixel driving circuit and peripheral driving circuit
在文中,首先,分析和研究了有源oled的像素驅動電路,闡述了amoled顯示屏及其周邊驅動電路的結構和原理;其次,提出了qvga解析度的有源oled顯示屏列電極數據引線的分塊( block )方法,確定屏上驅動電路所需要的控制信號之間時序關系和幅值要求;最後,以fpga控制器的設計為核心,對外圍控制ic進行了具體設計,建立控制器電路模塊模型和演算法流程,通過quartus軟體對其內部的各個電路模塊進行綜合設計和模擬,得到了正確的模擬波形,完成了解析度為qvga ( 320 3 240 )的amoled專用驅動電路的設計。 -
Silicon ( si ) is the leading material of microelectronic devices, but the nature of indirect band gap of si hinders its applications in integrated optoelectronics. to develop si - based optoelectronic integration by coupling the mature technology of si microelectronic integration with si - based light - emitting material will essentially meet the increasing demand of the great progress in the information technology
硅是微電子器件的主要材料,但硅的間接能隙特性嚴重製約了其在光電子領域的應用,如果能在硅基材料的基礎上制備發光材料,就可利用已有成熟的硅集成技術發展硅光電子集成,從而有可能完全改變信息技術的面貌。 -
Porous silicon ( ps ) is a new type silicon - based material developed in recent years, which has different properties compared with the crystalline materials. porous silicon can luminescence efficiently across the whole range from the near infrared, through the visible region, to the near uv region. this characteristic makes it possible to fabricate light - emitting devices and solve the key problem of the optoelectronic integrated circuit ( qeic ), opening up the bright future for the vlic
多孔硅( ps )是近年來發展起來的一種新型硅基材料,具有與單晶硅材料大不相同的特性,例如,多孔硅可在近紅外和可見,甚至近紫外區輻射強烈的熒光,使得它可用來製造發光器件,並可望在解決光電子集成電子學的關鍵問題,為製造帶有光源的大規模集成電路等方面開辟新的途徑。 -
The image source is the hard core of hmd, the r & d of lcos ( liquid crystal on silicon ) and oled ( organic light emitting diode ) microdisplays needs to conquer many difficulties which related with material, fabrication, electronic circuit, optics and so on, these means a high technology barrier. the research on their control and drive technology is essential for the performance and operation, it is also very helpful for us to get our own intelligence property during the process of the hmd system design. the first chapter in this paper makes a full scale introduction about the concept, history, configuration & structure of hmd
Hmd的像源器件(即微型顯示晶元)是整個hmd系統中最重要的組分,現階段的主流像源「硅基液晶」 ( liquidcrystalonsilicon , lcos )與「有機發光」 ( organiclightemittingdiode , oled )微顯晶元在研發中需克服材料、工藝、電路、光學等諸多方面的困難,有較高的技術門檻,其驅動及控制技術的研究是整個hmd系統中不可或缺的一環,對hmd的性能、功能及使用方式等具有決定性作用,這同時也是開發具有自主知識產權樣機的必備基礎。 -
This lamp is the sources of energy with monocrystalline silicon solar energy cell or polycrystalline silicon solar energy cell ; the storage battery is nickel hydrogen battery or nickel cadmium battery ; that lamp holder and the lamp pole adopts casts aluminium or the stainless steel material manufacturing ; the lampcover adopts the toughened glass manufacturing, and the light source is the light source with high brightness led ' s light emitting diode ; the colour can be divided into the white and yellow, redness, orange, green and blue and seven colours become light
該燈以單晶硅太陽能電池或多晶硅太陽能電池為能源;蓄電池為鎳氫電池或鎳鎘電池;燈座和燈桿採用鑄鋁或不銹鋼材料製造;燈罩採用鋼化玻璃製造,光源以高亮度led發光二極體為光源;顏色可分為白色、黃色、紅色、橙色、綠色、藍色和七彩變光。 -
Due to its intrinsic merits, such as wide band gap, high electron saturated drift velocity, high melting point, good coefficient of thermal conductivity, anti - radiation and good chemical stability, gallium nitride as a direct band gap semiconductor has become the promising material for the application of short - wave light - emitting devices and high temperature, high frequency and high power electronic devices
Gan是直接帶隙半導體材料,以其禁帶寬度大、電子飽和漂移速度大、熔點高、熱導率高、抗輻射能力強和化學穩定性好等優點成為製造短波長光發射器件及高溫、高頻、大功率電子器件的理想材料。 -
However, fc derivatives could not be used as functional molecules directly in many high - tech fields such as nonlinear optics, light emitting devices, sensors and so on. only when they are organized with some structure or dispersed homogeneously into solid matrix to form functional material, their function could be fully brought into play
在許多領域,如非線性光學、發光器件、傳感器等,二茂鐵衍生物並不能直接應用,但將具有光電活性的二茂鐵基團引入到兩親分子中,形成特定性能的成膜分子,就能真正發揮其作用。 -
Investigations are made of porous sic ( psc ), both as a potentially attractive material for fabricating uv light emitting diodes ( leds ), efficient photodetectors and hydrocarbon gas sensors, and as a novel substrate for epitaxy, chiefly because of its much higher photoluminescence ( pl ) emission efficiency than that from bulk sic
作為一種有潛在吸引力的材料,多孔sic ( psc )可以用來制備紫外發光二極體、靈敏光探測器、碳氫氣體探測器和新穎的外延材料,目前被廣泛研究。引起大家感興趣的一個原因就是psc比晶體sic有更高的發光強度。
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