广西大学学报(自然科学版)
廣西大學學報(自然科學版)
엄서대학학보(자연과학판)
JOURNAL OF GUANGXI UNIVERSITY (NATURAL SCIENCE EDITION)
2013年
3期
777-783
,共7页
黄海华%张卫平%肖钰斐%庞霖
黃海華%張衛平%肖鈺斐%龐霖
황해화%장위평%초옥비%방림
硅纳米线%纳米线形状%硅薄膜太阳能电池
硅納米線%納米線形狀%硅薄膜太暘能電池
규납미선%납미선형상%규박막태양능전지
silicon nanowire%nanowire shape%silicon thin film solar cells
为了研究硅薄膜太阳能电池中硅纳米线阵列的光吸收率,利用耦合波分析理论(RCWA),分别研究了按正方形排列的柱形、锥形、柱锥形间隔等3种形状硅纳米线阵列对光吸收率的影响。通过改变3种形状硅纳米线阵列的周期、占空比,分别计算其对应的光吸收率,从中优化得到吸收效率最佳的硅纳米线结构参数,并通过光吸收效率η对硅纳米线结构的光吸收率进行定量分析。结果表明,在一定范围内适当增大硅纳米线结构的周期和占空比,能使得吸收率曲线往长波段处移动,并能有效地增加其光吸收效率η;不同硅纳米线形状获得最大吸收效率时对应的结构参数也不同;3种形状硅纳米线阵列中以锥形硅纳米线的光吸收率最佳。
為瞭研究硅薄膜太暘能電池中硅納米線陣列的光吸收率,利用耦閤波分析理論(RCWA),分彆研究瞭按正方形排列的柱形、錐形、柱錐形間隔等3種形狀硅納米線陣列對光吸收率的影響。通過改變3種形狀硅納米線陣列的週期、佔空比,分彆計算其對應的光吸收率,從中優化得到吸收效率最佳的硅納米線結構參數,併通過光吸收效率η對硅納米線結構的光吸收率進行定量分析。結果錶明,在一定範圍內適噹增大硅納米線結構的週期和佔空比,能使得吸收率麯線往長波段處移動,併能有效地增加其光吸收效率η;不同硅納米線形狀穫得最大吸收效率時對應的結構參數也不同;3種形狀硅納米線陣列中以錐形硅納米線的光吸收率最佳。
위료연구규박막태양능전지중규납미선진렬적광흡수솔,이용우합파분석이론(RCWA),분별연구료안정방형배렬적주형、추형、주추형간격등3충형상규납미선진렬대광흡수솔적영향。통과개변3충형상규납미선진렬적주기、점공비,분별계산기대응적광흡수솔,종중우화득도흡수효솔최가적규납미선결구삼수,병통과광흡수효솔η대규납미선결구적광흡수솔진행정량분석。결과표명,재일정범위내괄당증대규납미선결구적주기화점공비,능사득흡수솔곡선왕장파단처이동,병능유효지증가기광흡수효솔η;불동규납미선형상획득최대흡수효솔시대응적결구삼수야불동;3충형상규납미선진렬중이추형규납미선적광흡수솔최가。
To study the absorption of the silicon nanowire ( SiNW) arrays for silicon thin film solar cells ,the RCWA was used to simulate the optical absorption of the SiNW arrays , whose cross section varies from cylindrical to conical shapes .The absorption was calculated in terms of the period and the duty ratio of the SiNW arrays .Optimization of these two parameters was conducted in order to a-chieve the maximal absorption within solar absorption spectral range by evaluating the ultimate effi -ciency .The results indicate that the absorption bandwidth significantly shifts toward the long -wave region when the nanowire period and duty ratio increase ,the ultimate efficiency could be enhanced effectively with the increase of the SiNW period and duty ratio within certain extents .The shape of the nanowire also plays an important role in determining the maximal absorption .Cone silicon nanowires were found to have the maximal absorption in the three kinds of silicon nanowire shapes .
