電導材料 的英文怎麼說
中文拼音 [diàndǎocáiliào]
電導材料
英文
conducting material- 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...
- 導 : 動詞1. (引導) lead; guide 2. (傳導) transmit; conduct 3. (開導) instruct; teach; give guidance to
- 材 : 名詞1 (木料) timber 2 (泛指可以直接製成成品的東西; 材料) material 3 (供寫作或參考的資料) ma...
- 料 : 名詞1 (材料; 原料) material; stuff 2 (喂牲口用的穀物) feed; fodder 3 (料器) glassware 4 (...
- 材料 : 1. (原料) material 2. (資料) data; material 3. (適于做某種事的人才) makings; stuff
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1. two kinds of azo pigments with excellent photosensitivity, named as flurenone bisazo ( f - azo ) and oxazole bisazo ( o - azo ), are synthesized. the preparation of organic photoconductive blended materials and their photoconductivity in single - layered photoreceptors made from f - azo / titanium oxide phthalocyanine ( tiopc ) composite and o - azo / tiopc, respectively, are investigated
合成了芴酮基偶氮( f - azo )與?唑基偶氮( o - azo )兩種光敏性優良的偶氮化合物,並以此制備了芴酮基偶氮酞菁氧鈦和?唑基偶氮酞菁氧鈦復合光電導材料體系及其單層光電導體。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。Al - doped zno thin films are emerging as an alternative potential candidate for ito flims recently. al doped zno thin films also can obtain a tunable band gap. especially, zno : al thin films with high c - axis orientated crystalline structure along ( 002 ) plane are potential device applications in broadband ultra - violet
Al摻雜的zno薄膜不僅具有與傳統ito薄膜相比擬的光電性質,而且原材料豐富、價格低、無毒、沉積溫度低、熱穩定性高,在氫等離子體環境中具有很高的化學穩定性,不易導致太陽能電池材料活性降低。Electric heating band warm - up the crankcase in the compressor in short time which will help the compressor to start easily by higher the temperature temporarily
電加熱帶線內芯採用鎳鉻絲cr20ni80為電熱材料,外包覆硅橡膠為絕緣導熱材料。In the lclv, the most important parameter, switching ratio of the lclv, is analyzed. it is mainly influenced by the dark - conductivity, ratio of light - to dark - conductivity, thickness of the photoconductor and the thickness of the liquid crystal. it is concluded that the switching ratio can be improved by matching the thickness of the liquid crystal and the photoconductpr, and the proper change region of the light conductivity of the photoconductor
在電學匹配方面,我們對光電導材料的暗態電阻、亮暗電導比、厚度以及液晶的厚度等對光閥開關比的影響進行了分析,認為液晶光閥開關能力的提高很大程度上取決于光電導層和液晶層的厚度匹配,以及光電導層的電導變化的區域位置。Usually, gaas is employed as substrate for the growth of wide band - gap ii - vi semiconductors due to their similarities in lattice constant. however, as a mature semiconductor material, si has serves electronics greatly
以往的寬帶-族半導體都是以gaas為襯底材料的,這就造成了寬帶-族半導體光電子材料與si基微電子技術的分離。The traditional ag / graphite electrical brush is a kind of excellent electrical contact material. with the increase of the content of graphite, though the properties of lubrication may be increased, the properties of mechanical and electrical are linear decrease. the applications will be very difficulty in complicated environment
傳統銀-石墨電刷材料是一種很好的電接觸材料,但隨著石墨含量的增加,雖然潤滑性能增加但其相對密度、硬度、導電性能都直線下降,已很難滿足現在各種復雜情況下的應用,因此需要採用一種新的方法或材料來代替石墨,即起到潤滑的作用又可增強、導電導熱。Since high tc superconducting ( hts ) tapes for practical applications became commercially available over the past few years, the development of superconducting power technology has achieved significant progress. it is foreseen that superconducting technology will be the prevailing high technology of the 21st century, and that superconducting power equipment will be commercialized soon, enjoying a large - scale worldwide market before 2010. china ' s economy is expanding fast, and the demand for electricity is increasing quickly. at the same time, higher electricity quality will be required. traditional power technology will no longer be able to satisfy future requirements, so superconducting power technology would be the best solution, leading a revolution in the power industry. the history, present status and prospects of superconducting power technology as well as the economic benefits and basic physics problems involved are reviewed
人們認為,超導體在電力方面出現大規模應用的時間距離我們還非常遙遠.然而,隨著最近幾年來實用高溫超導材料的研製取得重大的進展,高溫超導電力技術的應用已經成為現實,預期將在2010年左右出現大規模的應用,並將帶來電力工業的革命.因此,下一個10年將是國際超導技術競爭最關鍵的10年.我國的經濟發展很快,電能需求量增加十分迅速,對電能質量的要求也越來越高.常規電力技術已經無法滿足我國電力發展的需要,超導電力技術是實現我國電力發展目標的必由之路.文章有代表性地介紹了超導電纜、超導限流器、超導磁儲能系統、超導變壓器和超導旋轉電機等的基本工作原理及研究發展歷史,並著重介紹高溫超導電力應用研究的現狀、應用前景、經濟可行性及基本物理問題It is capable to lower the insertion loss by using high conductivity electrode material and increasing the electrode thickness and quality factor of bst capacitor. at the same time increasing the tunability of the dielectric constant and the length of the transmission line can increase the phase shift
通過使用高電導率的電極材料、增加電極的厚度、提高bst薄膜電容的q值可以實現器件插損的降低;增大薄膜的介電系數變化率和傳輸線長度可以增加移相度。The curve of mix proportion kept away from the restricted zone in order to provide enough voids in mineral aggregate ( vma ) to fill the high content of conductive materials. conductive powder can regard as a part of filler in asphalt concrete
導電瀝青混凝土的級配設計採用superpave設計方法,合成曲線盡可能遠離禁區,提供足夠的礦料間隙率來填充高摻量的導電相材料。This modulator works with the guided - wave reflectance peak, in which the light intensity is changed by the variation of the refractive index of poled polymer due to the electro - optic effects. device performances have been theoretically and experimentally investigated. we also successfully carried out experiments of video signal transmission using the proposed modulator
該調制器工作于金屬包覆波導的衰減全反射導模吸收峰,利用極化聚合物電光材料的折射率對導模吸收的影響來實現電光調制,並對器件的性能指標進行了實驗研究,同時利用製作的反射型電光調制器進行了視頻信號良好地傳輸實驗。The methods used to prepare nanostructure phthalocyanines are introduced. it is found that the quantum scale effect in organic nanostructures is the real reason for the unique photoconductive properties
綜述了酞菁類納米光電導材料的制備方法,發現納米光電導材料優異的光電性能來源於材料的量子尺寸效應。Testing method for conductor - resistance and resistivity of metallic resistance materials
金屬電阻材料的導體電阻及電阻率的檢驗方法After storage for a long time, a layer of li2co3 and absorbed species ( h2o, co2and o2 - ) will appear on the surface, and a thin nio - like layer will be formed on the near surface of linio2 material
長期貯存的linioz電極材料將在表面形成一層包含lizco3 、 hzo 、 co :以及殘余活性氧物種02 .在內的覆蓋層,以及在近表面層生成一層類似nio的立方巖鹽結構鈍化層,從而導致其電化學性能下降。Pristine materials evidently ca n ' t meet such requirements. it has been demonstrated that preparations of hybrid and nanoscale materials are effective ways to improve material properties, the field of which are becoming one of hot research in organic photoconductive materials at present. new phenomena and new effects can also be derived from these hybrid and nanoscale organic photoconductive materials, which can help to illuminate photocarrier generation mechanism of organic photoconductive materials
大量研究結果表明,復合化和低維化是提高材料基本性能的有效途徑,因此通過有機光電導材料復合化與低維化的研究,以滿足上述要求,就成為當前國際上有機光電材料科學研究的前沿與熱點之一,同時有機光電導材料的復合化和低維化的研究必將有助於發現許多新現象和新效應,有助於闡明有機材料的光電導機理,建立完善的有機光電導理論,為高性能有機光電導材料的設計提供理論基礎。The photoconductivity of single - layered photoreceptors, where mwcnt bonded by tamnpc ( mwcnt - b - tamnpc ) served as the charge generation material ( cgm ), was studied by the xerographic photoinduced discharge method. the photosensitivity of mwcnt - b - tamnpc was better than that of pristine tamnpc and mwcnt / tamnpc composite obtained by simply physical blending. it is the photoinduced charge transfer from tamnpc to mwcnt in mwcnt - b - tamnpc that contributes to the higher photosensitivity of mwcnt - b - tamnpc
研究發現該復合光電導材料體系的光電導性能在500一760nm波長范圍內都有大幅度提高,例如679nm波長激發時,該復合材料的光敏性是同等條件下酞著錳的4倍,是四氨基酞背錳/碳納米管簡單物理共混材料的8 . 5倍。The main reasons for the enhanced photoconductive properties and the new effects of o - azo / cnts nanocomposites are owing to the increase of the interface area between charge generation material and charge transportation material and the charge transfer from nanoscale o - azo to cnts in o - azo / cnts nanocomposites
然料蕉共平層奮等件碩然鑫的電荷轉移是偶氮/碳納米管納米復合光電導材料體系的光譜響應范圍拓寬和光敏性能顯著增強的主要物理起因。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。Organic photoconductive materials have become one of the high - tech materials that are needed in the modern information society. due to the rapid development of information technology, organic photoconductive materials with high photo - responsive speed, wide photo - responsive range, high photosensitivity and low cost are required
隨著信息與科學技術的高速發展,呼喚著光譜響應速度更快、光譜響應范圍更寬、光敏性更高以及成本更低的有機光電導材料與之相匹配,顯然,常規的單一材料很難滿足這一要求。3. the multiwalled carbon nanotube ( mwcnt ) bonded by 2, 9, 16, 23 - tetra amino manganese phthalocyanine ( tamnpc ) was obtained and both its chemical and aggregated structures were characterized by means of ftir, uv - vis, tem, and xrd
3 .成功合成了以化學鍵合方式連接的四氨基酞著錳一碳納米管分子內復合光電導材料體系,並用ftir 、 uv - vis 、 tem和xrd等手段表徵了其化學結構和聚集態結構。分享友人