紅外光敏材料 的英文怎麼說

中文拼音 [hóngwàiguāngmǐncáiliào]
紅外光敏材料 英文
infra-red sensitive material
  • : 紅Ⅰ形容詞1 (像鮮血或石榴花的顏色) red 2 (象徵順利、成功或受人重視、歡迎) symbol of success lu...
  • : Ⅰ名詞1 (外面) outside; external side 2 (外國) foreign country 3 (以外) besides; beyond; in ...
  • : 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) ...
  • : Ⅰ形容詞(靈敏;敏捷) quick; agile; smart; nimble Ⅱ名詞(姓氏) a surname
  • : 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...
  • : 名詞1 (材料; 原料) material; stuff 2 (喂牲口用的穀物) feed; fodder 3 (料器) glassware 4 (...
  • 紅外 : infrared紅外報警裝置 infrared warning device; 紅外測雹 infrared detection of hail; 紅外測繪 infra...
  • 材料 : 1. (原料) material 2. (資料) data; material 3. (適于做某種事的人才) makings; stuff
  1. In this thesis, the oxygen sensitive materials and glucose sensitive materials had been developed by thermo - polymerization method including carrier covalence method and carrier covalence - cross linking method, and the properties had been investigated using the detection experiment of oxygen and spectrophotometer, at the mean time, the applications of oxygen sensitive materials in fiber optical gaseous oxygen sensor and fiber optical dis solved oxygen sensor, and that of biology sensitive materials in fiber optical dextrose sensor had been studied in this paper. major content of this work includes five aspects as follows : ( 1 ). oxygen sensitive materials had been prepared by carrier covalence method, and the preparation mechanism of the materials had been investigated by fi - ir, sem, and the detection experiment of oxygen

    本論文主要包括以下五個方面的內容: ( 1 )載體共價法制備氧:通過譜、掃描電鏡圖譜和氧測試實驗探討該氧的制備機理,通過氧測試實驗評價該氧的氧感性和穩定性,同時研究了各種因素對該氧性能的影響( 2 )載體共價?交聯法制備氧:通過譜、掃描電鏡圖譜和氧測試實驗探討該氧的制備機理,通過氧測試實驗和分度計評價該氧的氧感性和穩定性,同時研究了各種因素對該氧性能的影響( 3 )氧纖氣態氧傳感器中的應用:該傳感器的響應時間為10s ,檢測下限為5ppm ,檢測精度為0 . 5 ,具有較好的重復性和穩定性,遲滯較小,使用壽命至少為1年,適合各種環境下氣態氧濃度的檢測。
  2. A review of the development of organic semiconductor composite photo - conductive materials and devices was followed by a proposal of the researching theme in this thesis. the effects of fabrication arts such as solvents, gradient, interfacial layer and configurations on the photoconductive properties of the single - layer chlorodiane blue azo / tiopc composite photoreceptors were systematically studied in chapter ii. the results showed that the solvent played a decisive role in the multiphase and multicomponent system composed of two photogeneration species ( chlorodiane blue azo and tiopc ), a transporting material ( hydrozone ) and polymer binder ; 1, 4 - dioxane, as an amphiphilic solvent can effectively disperse and stabilize such multiphase and multicomponent systems, the derived photoreceptors presented improved photoconductive properties superior to those of dual - layer counterparts and demonstrated the evident synergetic enhancement and complementary effects ( eg

    結果表明:在由兩種氯丹藍偶氮和酞菁氧鈦、傳輸萘苯腙以及聚合物介質組成的多相多組分復合體系中,分散溶劑是至關重要的因素,二氧六環作為典型的雙親性溶劑,有效地分散和穩定了該多相多組分復合體系,得到的復合單層導體的性在整體上優于雙層導體,復合在可見和近區分別表現出的偶氮和酞菁氧鈦的性(如azo / tiopc = 8 / 2 , cgm / ctm / pc = 1 / 120 / 120時,具有明顯的互補效應;在近區明顯高於酞菁氧鈦與偶氮性的線性加和,表現出協同增強正效應。
  3. However, limited by the responsivity of the photo - sensitive layer in the device, nearly all of the currently used lclvs only worked in the visible to infrared spectrum region. to the best of our knowledge, there is no report so far on studies of visible blind uv - lclv using mbe - grown znsxse1 - x thin film with tunable response wavelength as the photo - sensitive layer

    但是受對寫入波長的響應限制,目前絕大部分液晶閥都只工作在可見和范圍,對以分子束延生長的zns _ x ( se _ ( 1 - x ) ) (薄膜作為層,響應波長連續可調的盲紫液晶閥還未見報道。
  4. Herein we employed 3, 4 - polyethylenedioxythiophene ( pedt ) as the polymer material, and tetracyanoquinodimethane ( tcnq ) and tin phthalocyanine ( snpc ) as small molecules. pedt was synthesized using chemical oxidation method. infrared spectrum ( ir ) and scanning electron microscopy ( sem ) were utilized for the characterization of the obtained pedt material and surface morphology of the pedt film

    對于pedt ,本文採用化學氧化法的工藝,探討了工藝對成膜的影響,用掃描電子顯微鏡( sem )觀察膜的表面形貌,運用吸收譜( ir )分析驗證了所生成的pedt聚合物,並測量了其電阻隨溫濕度的變化,最後探討了這種對兩種氣體的感特性。
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