有機光導體 的英文怎麼說
中文拼音 [yǒujīguāngdǎotǐ]
有機光導體
英文
organic photo conductor-
In the thesis, we aim to design a new kind of single - layered photoconductor with high performance, to study the relationship between aggregate state structure and photoconductivity, and to enrich organic semiconductive theory system
本論文旨在開發新一類高性能的有機單層光電導體,探索其凝聚態結構與光電導性能之間的關系,豐富有機半導體理論體系。Dsc, uv - vis and cyclic voltammograms studies showed that the enhanced photoconductivity might be resulted from the improvement of the separation efficiency of charge - carrier pairs, and that the decline of photosensitivity was due to the formation of the charge transfer complex of tnf - bah
本章從電荷傳輸材料復合的角度研究了這種光敏性增強效應和電荷轉移絡合物的形成,為設計和開發新型的有機光電導體提供了一種新途徑。The v338 is configured with an enhanced organic photoconductor, whose durability and reliability can be compared with the vivace 330
V338配以增強型有機光導體,其耐用性可靠性堪與vivace330媲美。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。In the first chapter of the dissertation, we review the development history and the trend of xerography technology, present a series of organic semiconductive materials and their device structures, and bring forward three ways to prepare single - layered photoconductor with high performance by dimixing, preparing nanomaterials, and synthesizing new organic electron transport materials
論文第一章首先評述了電子照相技術的發展歷史和發展趨勢,同時介紹了有機光電導材料的種類和光電導體的結構,提出可通過復合、納米化和研製新型的電子傳輸材料三種手段來制備高性能有機單層光電導體。Flexibility, processability, low cost, interesting optical - electric properties and so on make organic materials be a good substitute for inorganic ones. modification of inorganics by organics can change surface properties of inorganics, for example, frictional, optical, electrical, chemical and biocompatible properties. on the other hand, many interests have been shown to integration of functional organics in si - base devices because of their great promise in optoelectronic, micro - electronic and sensor applications
通過對無機半導體材料進行有機改性,可以改變無機材料的表面化學性質,生物相容性質,光電性質等等,因此,有機無機復合材料在光電器件、生物傳感、微電子器件的應用領域有著很好的應用前景,尤其是在微電子工業中廣泛使用的硅材料與有機光電材料的復合更是備受關注。The life of the designed organic optical conductors is prolonged to deal with extreme urgencies
延長設定有機光導體的壽命,解決燃眉之急。Enhanced organic optical conductors
增強型有機光導體The enhanced organic optical conductors are mainly designed for the remote users with transportation un - convenience
增強型有機光導體,專為那些地處偏遠,交通不便的用戶設想。Organic optical conductor technology - the use of advanced organic optical conductor technology ensures outstanding copy quality even in adverse conditions
有機光導體技術採用業內領先的有機光導體技術,即使在惡劣的環境下也能保證優異的復印品質。The process of developing and researches of organic photoconductors are discussed in this paper. the advances of charge generation materials and charge transport materials are specially reviewed in this paper
論述了有機光導體的發展歷程及研究近況,重點討論了電荷產生材料以及電荷傳輸材料的研究進展。Abstract : the current study is focused on organic semiconductor lasers
文摘:近年來,有機半導體激光器已經成為一個新的研究熱點。The opto / electronic properties and solid - state structures of fluoro - substituted conjugated organic systems exhibit unique characteristics in comparison with their counterparts
氟取代的有機半導體材料在光電性能和固體結構上表現出與未取代的同類材料不同的特徵。The applications of organic semiconductor as active layers in light - emitting devices offer several prominent advantages such as high efficiency, high brightness and low cost. another advantage is that the emitting wavelength can be chemically tailored due to the band gap
有機半導體微腔調諧發光器,發射光波長可通過分子設計調節,在紫外到紅外的波長范圍內可調,實現全色光發射,受到人們的重視。Wang zijun ( condensed matter physics ) directed by prof. zhong guozhu and li wenlian hotly studied organic thin film electroluminescence, because of its ultra high brightness and efficiency, reminds man to consider the possibility of realizing organic semiconducting laser diods
熱點研究的有機薄膜電致發光,由於極高的亮度和效率,使人聯想有機半導體薄膜激光二極體的可能性。率先的突破是在單晶上作出的,用了場效應注入雙電極。By using the composite and nanoscalization approaches, we fabricated and investigated in this thesis new kinds of organic / organic and organic / inorganic hybrid photoconductive materials and their single - layered configuration organic photoreceptors, where the charge generation material and charge transportation material display their functions, respectively, in the same layer. a series of new phenomena and new effects of these organic photoconductive materials caused by hybrid and nanoscalization are studied. their photoconductive properties and mechanism are investigated as well
本文主要從有機半導體材料的復合化和低維化出發,通過光電導功能復合和納米化等手段,制備新型高效的多種有機半導體復合光電導材料體系及其相應的有機單層光電導體,研究復合化與低維化給有機光電導材料體系帶來的一系列新現象和新效應,並初步探索相關的復合原理和光電導機理。The microcavity effect provides the possibility to control the spectral properties of emission and is of considerable interest in the realization of flat panel display devices, which require the emission of blue, green, and red light. in this paper, ladder - type poly ( p - phyenylene ) ( lppp ) thin films were used as the light emitter and hole transporter, while dye pyomethene doped alq was electron transporter
本文採用有機半導體梯形對次苯基聚合物( lppp )作有機電致發光器件的發光材料和空穴傳輸材料,以1 . 0 % pm580染料( dyepyomethene )摻雜的8 -羥基喹啉鋁( 8 - hydroxyquinolinealuminum - alq )作器件電子傳輸材料。Recently, organic semiconductor light emitting has attracted a great deal of attention due to future applications in large area light emitting devices and displays
用有機半導體材料制備的發光器件具有高效率、高亮度、全彩色、低成本等突出優點,在大屏幕固體平面顯示等方面有廣闊的應用前景。Plastic substrates with multi - layer coatings for the flat panel displays were introduced, they were sufficiently impermeable to moisture and oxygen for application to moisture - sensitive display applications, such as lcd, organic light emitting displays ( oled ) and poly oled ( polymer oled )
摘要介紹了具有多層塗膜的塑料基片,它們對于潮氣和氧具有足夠的不可滲透性,可用於對潮氣靈敏的顯示器,譬如lcd ,小分子有機半導體發光二極體顯示器和聚合物半導體發光二極體顯示器。Recently organic optoelectronic devices have attracted intensive interest among scientists and technologists because of their huge market and intriguing potential applications. among these devices, organic photoconductor ( opc ) drum is the only one who has been put into market in large scale
有機半導體光電器件由於其誘人的應用前景和巨大的市場正日益引起人們的廣泛關注和研究興趣,其中唯一已進行大規模產業化的有機半導體光電器件是有機光導鼓( opc ) 。分享友人