cigs

网络  铜铟镓硒; 铜铟镓硒薄膜太阳能电池; 铜铟硒; 硒化铜铟镓

双语例句

  1. Energy Dispersive X-ray spectroscopy provides compositional information about the structure of CIGS solar cells.
    射线能谱仪提供有关CIGS太阳能电池的结构成分信息。
  2. A commercially available CIGS solar cell was disassembled to extract a portion of a single cell.
    市场上可以买到的CIGS太阳能电池,分解后提取单一元件的一部分。
  3. As the most promising and new generation thin film solar cell product, CIGS is widely concentrated due to its advantages of high conversion rate, low production cost, no performance degradation, etc.
    铜铟镓锡(CIGS)电池作为最有前景的新一代薄膜太阳能电池产品,由于其转换效率较高、制作成本较低、没有性能衰减等优良特性而受到了广泛的关注。
  4. I stopped to buy another pack of cigs.
    我停下又买了一包烟。
  5. He was promoted over the heads of many senior officers to be the youngest-ever CIGS.
    他被提升到许多高级军官之上,成为有史以来最年轻的帝国总参谋长。
  6. Preparation, Structure and Properties of the CIGS Thin Films Solar Cells 'Materials
    CIGS薄膜太阳能电池材料的制备、结构及性能研究
  7. Its approach is to deposit the CIGS layer using a sputtering process borrowed from the disk-storage industry.
    它的方法是通过借鉴于碟片储存行业的“喷溅”处理来沉积cigs层面。
  8. The sol-gel solution can be provided for the ink coating technology for configuring the CIGS light absorbing layer of the CIGS solar cell.
    溶胶凝胶溶液,可提供供墨涂层技术用于配置的CIGS光吸收层的CIGS太阳能电池。
  9. But producing CIGS-Based solar modules is not easy.
    生产cigs太阳能组件却十分复杂。
  10. Global Solar uses a technology known as copper indium gallium selenide ( CIGS) to make its thin-film solar cells.
    全球太阳能利用技术称为铜铟镓硒(CIGS)将其薄膜太阳能电池。
  11. The function of OVC in CIGS thin film solar cells
    OVC在CIGS薄膜太阳电池中的作用
  12. The highest efficiency of CIGS solar cell using hexagonal CdS or cubic CdS thin films is 12.10% or 12.17%, respectively.
    用六方晶为主和立方晶为主的CdS制备的CIGS太阳电池最高效率分别达到12.10%和12.17%。
  13. The development of wave-theory based seismic migration and imaging methods provides reliable ways for the construction of angle-domain CIGs of high quality.
    以波动理论为基础的地震偏移成像方法的发展为获得高质量的角度域CIG提供了可靠的实现途径。
  14. Angle-domain CIGs have been proposed as a solution to this problem and become a natural choice for velocity analysis, AVA and true amplitude migration/ imaging.
    角度域CIG由于克服了这一缺陷而逐步成为速度分析、AVA以及振幅保真偏移成像等研究的主要手段。
  15. It also can be concluded that ZnS thin films are suitable for intermediate layer of GIGS solar cell using sodium citrate as the complexing agent with agitation.
    结果还表明,采用柠檬酸钠为络合剂,在搅拌条件下制备出的ZnS薄膜适用于CIGS太阳电池的过渡层。
  16. Research on CIS and CIGS thin film solar cells
    CIS和CIGS薄膜太阳电池的研究
  17. The effects of a Cr diffusion barrier on the performance of flexible Cu ( In_xGa__ 1-x) Se_2 ( CIGS) solar cells deposited on stainless steel ( SS) substrate are investigated.
    研究了Cr扩散阻挡层对柔性不锈钢衬底Cu(InxGa1-x)Se2(CIGS)太阳电池性能的影响。
  18. P type CIS and CIGS thin films are fabricated by evaporating selenylation method, and so are N type CdS. They compose heterogeneity PN junction solar cells.
    采用蒸发硒化方法制备了P型CIS(铜铟硒)和CIGS(铜铟镓硒)薄膜,用蒸发法制备N型CdS(硫化镉),二者组成异质PN结太阳电池。
  19. Effects of Proportion and Distribution of Gallium on Quantum Efficiency of CIGS Thin Film Solar Cell
    镓(Ga)的含量及分布对CIGS薄膜电池量子效率的影响
  20. Through extensive study on the performance of ZnO films, high quality ZnO films were obtained by controlling the parameter in the processing. The performance of ZnO films with a great influence on the conversion efficiency of CIGS solar cells was found.
    通过不同的工艺参数改变控制,得到了性能优良的ZnO薄膜,同时表明电池窗口层ZnO薄膜工艺参数对铜铟硒电池性能影响至关重要。
  21. The results show that using diethyleneglycol as solvent to prepare CIGS nanocrystals is better.
    结果表明,采用二乙二醇作为反应的溶剂制备CIGS纳米晶效果更好。
  22. Copper indium diselenide ( CIS) or copper indium gallium diselenide ( CIGS) and cadmium sulfide ( CdS) are both promising semiconductor compounds for fabricating thin film solar cells. CIGS solar cells have reached a very high photo-electric conversion efficiency of 19.9%.
    铜铟硒(CIS)或铜铟镓硒(CIGS)和硫化镉(CdS)是制造薄膜太阳能电池的非常优良的化合物半导体材料,CIGS太阳能电池有非常高的光电转化效率,目前已经达到19.9%。
  23. CIGS thin film solar cells has been applied in commercialization, but the complex processing, scare elements and high cost prevent its large-scale production.
    已经商业化的铜铟镓硒薄膜太阳能电池,由于电池工艺较为复杂,成本较高,构成的In元素较为紧缺,妨碍了其大规模的应用。
  24. Copper indium gallium selenide ( CIGS) thin film solar cell is one of the most promising solar cells for its high conversion efficiency, low cost, strong radiation resistance and excellent weak light response.
    铜铟镓硒(CIGS)薄膜太阳能电池具有转换效率高、生产成本低、抗辐射性能强和弱光特性好等许多优点,是极具发展前景的薄膜太阳能电池之一。
  25. From then on CIGS solar cells became the research focus in all over the world and developed quickly.
    从此CIGS太阳能电池便成为各界学者的研究热点,迅速发展起来。
  26. In order to developing commercial production, a large-scale and low-cost deposition method is needed.
    为了推进CIGS薄膜太阳能电池的商业化进程,需要开发大面积和低成本的薄膜沉积方法。
  27. There are several aspects discussed in this thesis: The thesis made the elucidation to the traditional manufacturing methods of the CdS buffer layers of CIS ( CIGS) thin film solar cells.
    本文主要做了如下方面的研究工作:对CIS薄膜太阳能电池缓冲层CdS的传统制备工艺作了说明。
  28. CIGS is aI-III-VI family compound semiconductor materials, has a crystal structure of chalcopyrite.
    CIGS是一种Ⅰ-Ⅲ-Ⅵ族四元化合物直接带隙的半导体材料,黄铜矿的晶体结构。
  29. N-type semiconductor thin film is deposited on p-type CIGS absorber layer to form p-n junction to separate light-excited carriers.
    为了与p型的CIGS吸收层形成p-n结从而分离光生载流子,需要在其表面制备一层n型半导体薄膜。
  30. With adjusting the deposition pressure and heat treatment temperature, The CIGS thin film absorption layer and CdS thin film buffer layer were prepared on glass substrates by pulsed laser deposition ( PLD), respectively.
    采用脉冲激光沉积(PLD)法在玻璃衬底上,通过调节真空室气压和热处理温度制备铜铟镓硒(CIGS)薄膜吸收层和硫化镉(CdS)薄膜缓冲层。
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