物理学报
物理學報
물이학보
2013年
7期
516-523
,共8页
张超%敖建平?%姜韬%孙国忠%周志强%孙云
張超%敖建平?%薑韜%孫國忠%週誌彊%孫雲
장초%오건평?%강도%손국충%주지강%손운
Cu(In0.7Ga0.3)Se2%电沉积%Cu-In-Ga金属预制层%等离子体活化硒
Cu(In0.7Ga0.3)Se2%電沉積%Cu-In-Ga金屬預製層%等離子體活化硒
Cu(In0.7Ga0.3)Se2%전침적%Cu-In-Ga금속예제층%등리자체활화서
Cu(In0.7Ga0.3)Se2%electrodeposition%Cu-In-Ga metallic precursors%plasma activation Se source
使用等离子体活化硒源对电沉积制备的Cu-In-Ga 金属预制层进行了硒化处理时,发现等离子体功率对Cu(In1?xGax)Se2(CIGS)晶粒的生长有重要影响,当等离子体功率为75 W时,制备出单一Cu(In0.7Ga0.3)Se2相的CIGS薄膜.通过对不同衬底温度的等离子体活化硒源硒化的CIGS薄膜进行了研究与分析,并与普通硒化后的薄膜进行对比,发现高活性硒在低温下会促进Ga-Se二元相的生成,从而有利于Cu(In0.7Ga0.3)Se2单相的生长.对等离子体硒化后的CIGS薄膜进行了电池制备,发现单相CIGS薄膜没有显著提高电池性能.通过优化工艺,所制备的CIGS电池效率达到了9.4%.
使用等離子體活化硒源對電沉積製備的Cu-In-Ga 金屬預製層進行瞭硒化處理時,髮現等離子體功率對Cu(In1?xGax)Se2(CIGS)晶粒的生長有重要影響,噹等離子體功率為75 W時,製備齣單一Cu(In0.7Ga0.3)Se2相的CIGS薄膜.通過對不同襯底溫度的等離子體活化硒源硒化的CIGS薄膜進行瞭研究與分析,併與普通硒化後的薄膜進行對比,髮現高活性硒在低溫下會促進Ga-Se二元相的生成,從而有利于Cu(In0.7Ga0.3)Se2單相的生長.對等離子體硒化後的CIGS薄膜進行瞭電池製備,髮現單相CIGS薄膜沒有顯著提高電池性能.通過優化工藝,所製備的CIGS電池效率達到瞭9.4%.
사용등리자체활화서원대전침적제비적Cu-In-Ga 금속예제층진행료서화처리시,발현등리자체공솔대Cu(In1?xGax)Se2(CIGS)정립적생장유중요영향,당등리자체공솔위75 W시,제비출단일Cu(In0.7Ga0.3)Se2상적CIGS박막.통과대불동츤저온도적등리자체활화서원서화적CIGS박막진행료연구여분석,병여보통서화후적박막진행대비,발현고활성서재저온하회촉진Ga-Se이원상적생성,종이유리우Cu(In0.7Ga0.3)Se2단상적생장.대등리자체서화후적CIGS박막진행료전지제비,발현단상CIGS박막몰유현저제고전지성능.통과우화공예,소제비적CIGS전지효솔체도료9.4%.
In this paper, the electrodeposited Cu-In-Ga metallic precursors have been selenized by using plasma activation Se source. The power of plasma has great influence on the grain growth of Cu(In1?xGax)Se2(CIGS). The films were shown to be single phase Cu(In0.7Ga0.3)Se2 when the plasma power was 75W. And the fact that high activity Se promotes the generation of binary selenide phase at a low temperature, thus helping the growth of single phase Cu(In0.7Ga0.3)Se2, was proved by XRD analysis of the films selenized at defferent temperatures and the comparison with the films prepared by ordinary selenization. Solar cells have been prepared and found that the single phase have no influence on battery performance. The efficiency can reach 9.4%by process optimization.
