有機光學材料 的英文怎麼說
中文拼音 [yǒujīguāngxuécáiliào]
有機光學材料
英文
organic optical materials- 有 : 有副詞[書面語] (表示整數之外再加零數): 30 有 5 thirty-five; 10 有 5年 fifteen years
- 機 : machineengine
- 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) ...
- 學 : Ⅰ動詞1 (學習) study; learn 2 (模仿) imitate; mimic Ⅱ名詞1 (學問) learning; knowledge 2 (學...
- 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 (...
- 有機 : organic organic
- 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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This is so because climbing plants are likely to encounter intensive - changing environmental condition during their growth ( especially change of illumination ). secondly, there is a large proportion ( 30 - 40 % ) of climbing plants which belong to dioecism, and hence a gap between male and female plants on morphology, biological characteristic, economic value and so on. this dissertation focuses on herbaceous climbing plants, perennial or annual species such as dioecious trchosahthes kirilowii maxin and dioscorea opposita thumb, and monoecious luffa cylindrical ( l ) roem, it attempts to discover how climbing plants adapted to various environments and the mechanism of adaptation from aspects of physiological and reproductive ecologies at present, due to overuse of chlorofluorocarbons ( cfcs ), the ozonosphere has become thinner and thinner, and the ultraviolet - b ( uv - b ) radiation has increased considerably
而攀援植物本身是一類理想的植物行為生態學研究材料:第一,攀緣植物由於受攀緣能力和支柱木資源的限制,在生長過程中通常要遇到強烈變化的環境條件(特別是光照) ;第二,攀緣植物中具有較高比例的雌雄異株類型,通常佔地區攀緣植物種類的30 40左右,不同性別的植物在形態學及生物學特性、經濟價值等方面存在一定的差距,因此,本文以雌雄異株攀緣植物栝樓( trchosahtheskirilowiimaxim ) (葫蘆科多年生草質藤本植物)和山藥( dioscoreaoppositathunb ) (薯蕷科薯蕷屬植物) 、雌雄同株異花攀緣植物絲瓜[ luffacylindrical ( l ) roem ] (葫蘆科一年生攀緣草本植物)為材料,試圖從生理生態學及生殖生態學角度揭示攀援植物如何適應不同生境及其機理。Organometallic complexes are promising nonlinear optical materials
金屬有機化合物是一種很有前途的非線性光學材料。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。Modern infrared ( ir ) focal plane arrays ( fpa ) technology has become a advanced comprehensive technologies, including ir material, optics, crygenics, solid - state micromachining technique, microelectronics, and so on. irfpa plays an important role in military affairs, and can be widely applied in industry and civil fields
當今的紅外焦平面技術已發展成為集紅外材料、光學、製冷、硅微機械加工和微電子於一體的高科技綜合技術,它對國防建設有著非常重要的意義,在工業和民用領域也有著極其廣泛的市場前景。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。Much emphasis has been put on organic nonlinear optical materials because they have many advantages, such as wide response wave band, good flexibility, high optical damage threshold, low cost, and easy combination and modification
由於有機非線性光學材料具有寬的響應波段、良好的柔韌性、高的光損傷閾值和較低成本,以及易於合成、可以進行裁減和修飾等特點而備受重視。Current research interests of our faculty members can be broadly classified into the following areas : analytical and environmental chemistry, inorganic and structural chemistry, organic synthesis, organometallic chemistry, physical and biophysical chemistry, chemistry of macromolecules and colloids, surface and materials chemistry, laser spectroscopy, theoretical and computational chemistry
他們的研究專長包括:分析及環境化學、無機及結構化學、有機合成、金屬有機化學、物理化學及生物物理化學、高分子及膠體化學、表面及材料化學、激光光學、理論及計算化學等。Advance in research and developments of third - order nonlinear optical polymers
有機三階非線性光學材料的研究進展Organic optical materials
有機光學材料In order to research the application of nonlinear optical materials for optical limiting, four derivatives of alkoxy metal phthaloyanines were synthesized. the structures of the products were characterized by means of ir. 1hnmr spectra and elementary analysis
為探索有機非線性光學材料在光限幅方面的應用,本論文合成了四種烷氧基取代的金屬酞菁化合物,並利用元素分析、紅外光譜、核磁共振氫譜等方法,驗證了化合物的分子結構。Professor k y chan of the department of chemistry, hku, a specialist in electrochemistry and material science, will lead the project together with dr. patrick toy, who is an eminent organic chemist
香港大學化學系電化學及材料科學專家陳光宇教授將聯同著名有機化學家蔡顯輝博士領導是項計劃。This paper introduce the development of the antilaser nonlinear optics nonlinear optical mateials and the idea of the reverse saturable absorption
本論文闡述了激光防護的發展概況,介紹了非線性光學、有機非線性光學材料現狀和反飽和吸收理論。Research interests : green progresses for synthesis of fine chemicals, functional dyestuff and third - order optical nonlinear organic materials, organic electroluminesent materials
主要研究方向:綠色精細有機合成及產品開發、功能染料暨新型有機非線性光學材料、有機電致發光材料等。The advent of vlsi technology and fiber optics material science has enabled us to design massively parallel processing computer systems and fast and complicated communications networks
超大規模集成電路技術和光纖材料科學的發展使我們有能力設計大型并行處理計算機系統和快速、復雜的通信網路。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。To study its properties and obtain high quality thin films, a variety of techniques have been used such as molecular beam epitaxy ( mbe ), metal organic chemical vapor deposition ( mocvd ), magnetron sputtering, pulsed laser deposition, to prepare zno thin films
為了獲得高質量的氧化鋅薄膜材料,人們已採用分子束外延,有機化學汽相沉積,脈沖激光沉積,磁控濺射等各種技術來制備氧化鋅薄膜材料。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。The sol - gel process was an effective and feasible method in the preparation of organic dyes doped the inorganic matrix, which promoted the research of organic - inorganic optical composite system
溶膠-凝膠濕化學方法在制備無機基質材料中的應用為有機染料的摻入提供了一種可行和有效的方法,極大的推動了有機-無機復合光功能材料的研究。The light transmittance of the former with small amt content was higher than that of the latter with relatively higher amt content at the shorter wavelengths, and was lower than the latter at the longer wavelengths. and normalized light transmittance increased when the wavelength increased and the amt content decreased, whenever the amt is exfoliated or intercalated. on the additional, the light transmittance of composites prepared with different amounts of curing agent was also investigated
粘土在環氧樹脂基體中的結構對材料的光學透明性有很大的影響,當有機土含量相同時,粘土剝離有利於ec材料保持較高的透光率;當低粘土含量的插層型納米復合材料與高粘土含量的剝離型納米復合材料相比較時,材料的透光率大小關系隨波長的變化而變化:在短波長時,插層型納米復合材料優於後者;波長變長時,剝離型納米復合材料具有較高的透光率,盡管體系中粘土的含量遠大於插層型納米復合材料。As a kind of organic semiconductor, metallophthalocyanines ( mpc ) has been widely applied in many fields such as photoconductor, electroluminescences devices, non - linear optics devices, gas sensors, and solar cells, etc. the band structures of mpcs can feasibly be changed on purpose by kinds of methods
酞菁類金屬配合物作為一種有機功能材料,在光電導器件、電致發光器件、非線性光學器件、氣體傳感器、太陽能電池等眾多領域得到廣泛應用。分享友人