薄膜太陽電池 的英文怎麼說

中文拼音 [tàiyángdiànchí]
薄膜太陽電池 英文
thin film solar cell
  • : 名詞[方言] (浮萍) duckweed
  • : 名詞1. [生物學] (像薄皮的組織) membrane 2. (像膜的薄皮) film; thin coating
  • : Ⅰ形容詞1 (極高; 極大) highest; greatest; remotest 2 (極; 最) extreme; most 3 (身分最高或輩分...
  • : Ⅰ名詞1 (太陽; 日光) the sun 2 (山的南面; 水的北面) south of a hill or north of a river 3 (中...
  • : 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...
  • : 名詞1 (池塘) pool; pond 2 (旁邊高中間窪的地方) an enclosed space with raised sides 3 (舊指劇...
  • 薄膜 : thin film; film; diaphragm
  • 電池 : [電學] cell; battery; element; electric battery
  1. The effects of amiodarone on the changes of cytokines in patients of congestive heart failure with ventricular arrhythmias

    在染料敏化薄膜太陽電池中的應用
  2. Owing to its optoelectronic and chemical properties, cdte is an ideal absorber material for high - efficiency, lowcost polycrystalline thin film

    碲化鎘( cdte )具有良好的光學性質和化學性質,因此成為制備高效率、低成本的多晶薄膜太陽電池理想的吸收層材料。
  3. The intention of the paper is to study the deposition and properties of znte ( znte : cu ) polycrystalline thin films and to apply znte ( znte : cu ) as a complex back contact layer between cdte and metal electrode to obtain ohm contact and high efficiency cdte solar cells

    本論文目的在於研究znte ( znte : cu )多晶的制備和性質,並把znte znte : cu多晶作為復合背接觸層應用於cdte和背金屬極之間以獲得歐姆接觸和高效cdte
  4. In the work, mid - frequency pulse magnetron sputtering is used to prepare znoral thin films used as the back reflector of the thin silicon films solar cells. the best techological condition was obtained by optimizing the preparing conditions, ( var is decided by the deposition rate, target voltage : 265v, gas pressure : 0. 6pa, the high base vacuum is expected

    本文採用中頻脈沖磁控濺射法,通過優化zno : al的制備工藝,如靶壓、本底真空度、工作氣壓、襯底溫度、 o _ 2 ar ,得到可用於硅極的zno : al
  5. Progress in research on window materials of silicon film solar cells

    硅基薄膜太陽電池窗口材料的研究進展
  6. In this paper, a - si window layers doped with b2h6 or b ( ch3 ) 3 and osi window layers doped with b2h6 were prepared in a series seven - chamber rf - pecvd system

    實驗研究了工藝參數對材料性能的影響,並且考察了這幾種窗口材料在硅薄膜太陽電池上的適用性。
  7. In the thesis, the principle and structure of different kinds of solar cells were reviewed. the pyrite qds sensitized tio2 photoelectrode was proposed. tio2 films were prepared by sol - gel method

    本論文綜述了的研究現狀,在討論了各種結構與材料的基礎上,提出了fes _ 2量子點敏化tio _ 2多孔的設想。
  8. Zno - tco film and its application in solar cells

    及其在中的應用
  9. This article introduces the development and characteristic of dye - sensitized solar cell, points out poor stability would be obstacle for its production, summarizes its components which would improve its stability, such as : solid electrolyte, ionic liquid, inorganic sensitized dye, composite transparent conducting film and sealing of cells, discusses the prospects for application of dye - sensitized solar cells

    摘要介紹了色素增感的發展及特點,指出穩定性差將是實現產業化的一個發展瓶頸;對提高穩定性的組成部分如:固體解質、離子液體、無機增感色素、復合透明導以及的封裝問題進行了綜述;對色素增感的應用前景作出了展望。
  10. Owing to its optoelectronic and chemical properties, cdte is an ideal absorber material for high - efficiency, low - cost polycrystalline thin film. the thesis has investigated the structure, figure and optoelectronic characteristics of cdte polycrystalline thin films, the performance of doped cdte, and the influence of their deposition and anneal process

    Cdte具有良好的光學性質和化學性質,因此成為制備高效率、低成本的多晶薄膜太陽電池理想的吸收層材料。本文針對cdte,研究了其制備工藝、摻雜和后處理條件對結構、形貌和光學性質的影響。
  11. It is important work for scientific researchers to improve utility ratio of solar energy, especially to improve conversion efficiency of solar cells, there are many ways which can be used to improve it, depositing antireflection films on solar cells is the most doable one, and can debase the cost of solar cells

    提高能的利用率,尤其是的光轉化率是科研工作者研究的一個重要方向。對于提高的光轉換效率的方法很多,但比較可行又能降低成本的方法是在表面形成一層減反射,以減少表面對光的反射損失。
  12. The writer also elaborates the working principles of solar cell and various factors that may lead to bad conversion efficiency of solar cell, emphasizes on three thin film solar cells ( amorphous silicon thin film solar cell, poly silicon thin film solar cell, cuinsea thin film solar cell ), analyzes their structure, photovoltaic effect, producing techniques, and conversion efficiency etc., and discusses how to reduce the effects of sw in solar cell and how to improve the conversion efficiency

    闡述了的工作原理,論述了影響轉換效率的因素,並重點介紹了當前研究比較深入的三種熱點薄膜太陽電池:非晶硅薄膜太陽電池( a - si ) ;多晶硅( poly - si )薄膜太陽電池:銅銦錫( cis )薄膜太陽電池。分析了它們的結構、光伏效應、制備工藝、轉換效率等,探討了如何減小的光致衰退效應和提高薄膜太陽電池的轉換效率的方法。
  13. The thesis summarizes the applied foreground and development case of cdte solar energy cells and investigates characteristics of rare earth ( re ) elements doped cdte thin film as an absorber material of solar energy cells

    本論文綜述了cdte材料的應用前景和發展概況,並對多晶薄膜太陽電池的吸收層材料cdte的稀土摻雜性質進行了總結和研究。
  14. In the recent years, amorphous silicon solar cells deposited on polymeric film substrate were getting more attention

    柔性襯底上非晶硅薄膜太陽電池的研究是當前光伏學領域中最活躍的研究課題之一。
  15. P - type window layer is one of the most important factors which influence the performance of amorphous silicon ( a - si ) and microcrystalline silicon ( c - si ) solar cells

    P型窗口層是影響非晶硅( a - si )和微晶硅( c - si )薄膜太陽電池整體性能的重要因素之一。
  16. It is also a part of the program " explorations and studies of polycrystalline film materials and solar cells " in " the fundamental studies of solar cells with low prices, long lives and new types " supported by 973 program of china

    本文是國家自然科學基金項目「新型結構的cds cdte多晶薄膜太陽電池研究」的起始性研究,也是973 「低價長壽新型光伏的基礎研究」中「多晶材料和的探索研究」課題的一部分。
  17. Improvement of the structure of cdte polycrystalline thin film solar cell

    多晶薄膜太陽電池的結構改進
  18. 3 ) it is easy to apply integrated technology and then decrease the cost of solar cells again

    因此,非晶硅薄膜太陽電池是一種很有發展前途的
  19. Based on a variety of books and materials, foreign or domestic, this thesis deals with the past, present and future thin film solar cell

    本文是在收集了大量的國內外圖書資料基礎上,對薄膜太陽電池的過去、現在、未來進行了探討。
  20. Due to its great potential of low cost, the thin film solar cell has drawn great attention of the governments and research institutes both at home and abroad

    由於薄膜太陽電池在降低成本方面更具有潛力,受到國內外政府、研究機構、企業界的極大關注。
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