广州化工
廣州化工
엄주화공
GUANGZHOU CHEMICAL INDUSTRY AND TECHNOLOGY
2012年
8期
31-33,57
,共4页
非晶硅%叠层电池%光致衰减
非晶硅%疊層電池%光緻衰減
비정규%첩층전지%광치쇠감
a -Si: H thin film%light trapping structure%light -induced degradation test
介绍了非晶硅薄膜太阳能电池的发展现状及制约非晶硅薄膜太阳能发展的两个关键性因素:转化效率低、光致衰减。对近年来提高非晶硅薄膜太阳能转化效率的新技术和非晶硅薄膜太阳能电池光致衰减的特性及模型进行综叙;重点阐述窗口层材料、中间层、叠层电池等提高非晶硅薄膜太阳能电池转化效率的新技术。文章最后对非晶硅膜太阳能电池未来的发展趋势进行了展望。
介紹瞭非晶硅薄膜太暘能電池的髮展現狀及製約非晶硅薄膜太暘能髮展的兩箇關鍵性因素:轉化效率低、光緻衰減。對近年來提高非晶硅薄膜太暘能轉化效率的新技術和非晶硅薄膜太暘能電池光緻衰減的特性及模型進行綜敘;重點闡述窗口層材料、中間層、疊層電池等提高非晶硅薄膜太暘能電池轉化效率的新技術。文章最後對非晶硅膜太暘能電池未來的髮展趨勢進行瞭展望。
개소료비정규박막태양능전지적발전현상급제약비정규박막태양능발전적량개관건성인소:전화효솔저、광치쇠감。대근년래제고비정규박막태양능전화효솔적신기술화비정규박막태양능전지광치쇠감적특성급모형진행종서;중점천술창구층재료、중간층、첩층전지등제고비정규박막태양능전지전화효솔적신기술。문장최후대비정규막태양능전지미래적발전추세진행료전망。
The research progress on a - Si thin film solar cells and two key factors restricting the development of a - Si : H thin film solar: low transformation efficiency and light - induced degradation test were introduced. The new tech- nique to improve transformation efficiency on a - Si : H thin film solar cells and both characteristics and model of light - induced degradation test of a - Si: H thin film solar were reviewed. Window layer materiaels, intermediate layer, light trapping structure and other all new technologies to improve the transformation efficiency of a - Si : H thin film solar were emphased on. The development trend of a - Si : H thin film solar cells was predicted.