西华大学学报(自然科学版)
西華大學學報(自然科學版)
서화대학학보(자연과학판)
JOURNAL OF XIHUA UNIVERSITY(NATURAL SCIENCE EDITION)
2014年
1期
31-34,55
,共5页
杨顺洪%彭启才%龚述娟%赵新为
楊順洪%彭啟纔%龔述娟%趙新為
양순홍%팽계재%공술연%조신위
AlSb%异质结%界面态%太阳电池%计算机模拟
AlSb%異質結%界麵態%太暘電池%計算機模擬
AlSb%이질결%계면태%태양전지%계산궤모의
Aluminum antimonide%hetero-junction%interface state%solar cell%computer simulation
运用AMPS软件对n-ZnO/i-AlSb/p-AlSb异质结太阳能电池的性能进行模拟,针对n/i异质结界面态对电池填充因子和转换效率的影响进行研究。结果表明,随着界面态密度增大,电池的填充因子和转换效率迅速下降,具体表现为界面态密度的增加促进光生载流子的复合从而电池并联电阻减小,最终导致电池的转换效率降低。
運用AMPS軟件對n-ZnO/i-AlSb/p-AlSb異質結太暘能電池的性能進行模擬,針對n/i異質結界麵態對電池填充因子和轉換效率的影響進行研究。結果錶明,隨著界麵態密度增大,電池的填充因子和轉換效率迅速下降,具體錶現為界麵態密度的增加促進光生載流子的複閤從而電池併聯電阻減小,最終導緻電池的轉換效率降低。
운용AMPS연건대n-ZnO/i-AlSb/p-AlSb이질결태양능전지적성능진행모의,침대n/i이질결계면태대전지전충인자화전환효솔적영향진행연구。결과표명,수착계면태밀도증대,전지적전충인자화전환효솔신속하강,구체표현위계면태밀도적증가촉진광생재류자적복합종이전지병련전조감소,최종도치전지적전환효솔강저。
In this paper , the performance of the n-ZnO/i-AlSb/p-AlSb solar cell is simulated by AMPS ( Analysis of microelectron-ic and photonic structures ) .The effect of n/i interface state on the performance of the solar cell , such as fill factor FF and conversion efficiency η, was studied .It was shown that with the increase in interface state density , fill factor and conversion efficiency decreased rapidly, the mechanism of this change was investigated as well .
