electroluminescent devices 中文意思是什麼

electroluminescent devices 解釋
電場致發光器件
  • electroluminescent : 場致發光的
  • devices : 措施工藝裝備
  • nt : 1. New Testament (基督教《聖經》的)《新約全書》。2. Northern Territory 北部地區,澳北區〈澳大利亞一地區〉。【化學】= niton 氡 〈radon 舊稱〉。
  1. 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。
  2. Indium stannum oxide ( ito ) as semiconductor have caused a great deal of interest due to their prominent electro - optical behavior. ito has high prominent transmittance, high infrared reflectance, good electrical conductivity, ito applied as gas sensors, photovoltaic devices, heat reflecting mirrors, solar cells, flat panel displays, liquid crystal displays, electroluminescent, devices and organic light - emitting diodes ( oled ) etc. although preparations and applications of ito films have been studied deeply. nano - ito composites hardly studied

    氧化銦錫( ito )是一種高簡並的n型半導體,由於具有導電性,可見光高透過率,紅外反射性,穩定的化學性,被廣泛應用於熱反射建築玻璃、抗靜電塗層,太陽能電池,熱發射鏡,平板顯示器和液晶顯示屏,傳感器,有機光致二級管( oled )等方面,國內外對高質量的ito薄膜的制備和應用進行了深入的研究,但是很少有ito納米粒子與高分子材料復合的報道。
  3. 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。
  4. Phosphorescent electroluminescent materials and devices are one of prime focuses of organic light - emitting device research in recent years due to their ability to efficiently utilize both singlet and triplet excitons and having higher efficiency

    有機電致磷光材料可以同時利用單線態和三線態激子發光,具有發光效率高等優點,成為近年來研究的熱點。
  5. General specification for a. c. thin film electroluminescent matrix display devices

    交流薄膜電致發光矩陣顯示器件總規范
  6. Methods of measurement for a. c. thin film electroluminescent matrix display devices

    交流薄膜電致發光矩陣顯示器件測試方法
  7. Organic electroluminescent ( oel ) devices are one of hot research project because of great interests in both science and applications among photoelectronic field. people invent a series of luminescent materials and devices, but the emission from exciplex is usually found in oel devices

    有機電致發光( oel )近年來因在科學研究和實際應用領域的巨大效益而成為國際上研究的熱點之一,人們為此開發了各種各樣的發光材料和器件。
  8. The advantages of organic materials over inorganic materials are higher fluorescence efficiency, wider selection of emission colors and easer to fabricate large size films. so organic electroluminescent devices ( oelds ) are regarded as " the flat panel display in 21 century ". oelds have become a fascinating area of research in recent years

    與無機電致發光相比,有機、聚合物薄膜電致發光器件因其具有更高的發光效率和更寬的發光顏色選擇范圍,並且具有容易大面積成膜的優越性而被譽為「二十一世紀的平板顯示器」 ,是當今國際平板顯示技術研究的熱點之一。
  9. Study on structure and solid - state electroluminescent devices based on the tris phenanthroline ruthenium complexes

    配合物的結構及電致發光性能的研究
  10. Abstract : ferroelectric based nanocomposites are a new class of mesoscale functional materials which have a high dielectric constant and high electric field. recent progress in this research area is reviewed briefly, and a novel ferroelectric composite with embedded semiconductor quantum dots, including its preparation and optical properties, is reported. this material has promising applications in new electroluminescent devices and quantum dot lasers

    文摘:鐵電體基納米復合材料作為一類新型功能材料,提供了一系列「高介-高場」調制的介觀系統.文章介紹了這一領域的最新研究進展,並重點報道了一類新型鐵電體基納米復合材料鐵電體半導體量子點復合材料的制備與光學性質,該材料在新型電致發光元件及量子點激光器件中有著很好的應用前景
  11. Research advances, problems and developing tendency of organic phosphorescent electroluminescent materials with iridium core are reviewed, and the host materials for preparing devices are introduced briefly

    本文綜述了以銥為內核的有機電致磷光材料的研究進展、存在問題和研究趨勢,並簡要介紹了用於製作有機磷光器件的主體材料。
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