電致發光 的英文怎麼說
中文拼音 [diànzhìfāguāng]
電致發光
英文
el electroluminescent- 電 : Ⅰ名詞1 (有電荷存在和電荷變化的現象) electricity 2 (電報) telegram; cable Ⅱ動詞1 (觸電) give...
- 致 : Ⅰ動詞1 (給與;向對方表示禮節、情意等) deliver; send; extend 2 (集中於某個方面) devote (one s ...
- 發 : 名詞(頭發) hair
- 光 : Ⅰ名詞1 (照耀在物體上、使人能看見物體的一種物質) light; ray 2 (景物) scenery 3 (光彩; 榮譽) ...
- 發光 : 1 (發出光來) give out light; shine; be luminous; brighten; fulgurate; flash; glow; sparkle; gli...
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Study on the pl and el character of fluorene - based cardo perylene polyimide, pfb5 and pff5
研究了含?的聚酰亞胺的熒光特性和電致發光特性。Study on a new process for preparation of an organic electroluminescent compound of coumarine derivatives
合成香豆素類有機電致發光材料發光體新工藝研究Electroluminescence from eu3 : m complexes
復合體系的電致發光研究A study of visible electroluminescence from u si sio2 superlattices p - si structure
結構的可見電致發光研究Color organic thin film electroluminescence and passive matrix display
彩色有機薄膜電致發光及動態矩陣顯示Organic / polymeric electroluminescence is a newly - emerging display technique
有機聚合物電致發光是一種新興平板顯示技術。The emphasis of the article is to study the spectrum of photoluminescence and electroluminescence
本論文主要測定薄膜的光致發光和電致發光特性。Luminescence is a general term for light emission, including photoluminescence, electroluminescence and others
發光特性一般包括光致發光,電致發光及其它不同類型所導致的發光等。Organic electroluminescent devices ( oleds ) have aroused many scientists " interests because of their potential adventages in low - power, emissive, flexible, cost - competitive, flat panel displays. red, green and blue light - emitting devices are readily avaible
有機薄膜電致發光器件具有驅動電壓低、發光效率高、制備容易、可製成大面積的平板顯示器以及顏色豐富等特點,已引起各國科學工作者的廣泛關注。The direct application of eftl is flat panel displays. it has several preferences, emissive, wide view angle, quick response, wide working temperature range, high pixel resolution, anti - strike, long life, less number of fabrication process etc. all these properties are better than plasma display fed and lc
它的主動顯示、平板化、視角大、反應快、工作溫度范圍寬、像素鑒別率高、抗震動、壽命長、工序少等特點,都勝過液晶、等離子體、 lc等顯示技術:第一章介紹了無機電致發光及有機電致發光的發展現狀和存在問題。Synthesis and molecular design of electroluminescent poly p - phenylene vinylene
類電致發光聚合物的合成及分子設計研究As the increasing of concentration, the host and guest interconverted, and the more the charge been transferred, the more the total energy decreased. finally, we deduce that the doping of rubrene in pvk just acting as traps in electroluminescent devices, and its trapping electrons arrested many cavities in pvk. and so, more pvk who did n ' t transport energy was concerned with trop and it makes less pvk was concerned with energy transfer in photoluminescent devices than in electroluminescent devices
基於光致發光和電致發光中pvk與rubrene發光強度的不同,我們對低摻雜時的電致發光和光致發光進行了比較,並提出:在電致發光中, rubrene的摻入在pvk鏈間相當于陷阱,其陷阱電子對pvk空穴的吸引,使一部分在光致發光中不參與能量傳遞的pvk參與了這種陷阱作用,使得在電致發光中不參與能量傳遞的pvk可能比光致發光中少。Oled has been attracting much attention in recent years for its superior performance in the aspects of thin and light - weight, active emitting, wide visual angle, high brightness, fast video response time, low power dissipation, high efficiency, potential low cost, flexibleness, greenness, etc. the intrinsic characteristics of oled give visual and form factor advantages over lcd, and oled has been regards as one of the most ideal and potential next - generation display technologies with its excellent characteristic on information display and device fabrication
它被業界公認為是最具發展前景的下一代顯示技術。本文對有機電致發光顯示器件的發展歷史、發展現狀和趨勢等都做了簡要的概括,研究了oled的器件結構、工作特徵、獲得彩色顯示的方法以及所具有的優缺點,並在此基礎上提出了一種amoled外圍驅動系統的設計方案。本驅動系統可分為屏上驅動電路和外圍控制電路。We have contrasted several methods on fabrication of passive matrix oled, then we mainly discuss two fabricating methods, one is the precise mask method, the other is the barrier wall method. we find that the barrier wall method to fabricate the passive matrix oled ( pmoled ) has the advantages of high resolution, simple process and no crosstalking problem, so the barrier wall method is the good one to fabricate pmoled. in this paper we adopt the both methods, and we have successfully fabricated the pmoled
分析和對比了實現無源矩陣有機電致發光顯示器件的幾種方法,著重介紹了採用精密掩模技術和障壁技術等技術方案,來製作和設計無源矩陣有機電致發光顯示器件,其中採用障壁技術方案製作的器件具有解析度高、工藝簡單容易實現、器件的交叉效應少、成本低等許多優點,是一種可行的製作無源矩陣有機電致發光顯示器件的方案。This paper mainly discusses the design of the single - photon - counter. electroluminescence ( el ) is a weak light with its power under 10 - 16w, which can, t be detected with conventional method
絕緣聚合物的電致發光一般都非常微弱,功率都在10 - 16瓦以下,是典型的單光子,這給測試工作帶來很大的困難,必須研製特殊的測試儀器。Several methods commonly used in preparing porous silicon have been represented. photoluminescence and electroluminescence ( el ) properties of porous silicon in literature are summarized. qualitative description is given for the prevalent mechanisms proposed to explain the bright pl and el
在比較了制備多孔硅的幾種常用方法的基礎上,概括了多孔硅的光致發光( pl )和電致發光( el )特性,對目前比較流行的發光模型給出了定性的論述,展望了多孔硅的應用前景。Zhao jiamin ( condensed matter physics ) directed by prof. wang lijun the organic electroluminescence ( el ) device with microcavity ( moled ) can take on some new characteristics, such as narrowed spectrum, intensity enhancement, sharply directed emission in space, due to the microcavity effects compared with the common device without cavity ( oled )
將微腔引入有機電致發光器件中,由於微腔效應的存在,可以獲得多種不同於普通發光器件的發光特性,象譜線窄化,強度增強,發光方向性增強等。The basic organic light - emitting device ( oled ) consists of a number of ultra - thin organic layers between two electrodes. under low applied voltage, the recombination of carriers coming from cathode and anode can produce intense light output
有機電致發光器件( oled )採用有機薄膜作為發光層,能夠在低驅動電壓下,產生強烈的電光效應。This paper summarizes the progress of the molecular organic el materials, especially highlighting the oligomer and carrier - transporting emitters
本文主要介紹近年來有機分子電致發光材料最新的發展,並特別討論了齊聚物和含載流子傳輸單元的發光體。The advance, the applications in organic light - emitting diodes ( oleds ) and the future r & d directions of the well developed types of organic red emitters, such as transition metal complexes, intra - molecular charge transfer ( ict ) compounds, condensed aromatic hydrocarbons and oligomers are discussed
本文總結了近年來有機金屬配合物、分子內電荷轉移化合物、稠環芳香類化合物以及齊聚物等幾類有機電致發光紅色發光材料的研究進展,詳細介紹了它們在有機電致發光器件中的應用,並對有機電致發光紅色發光材料未來的研究方向作了展望。分享友人