[1]王传坤,毛玉婷,蒙仕嘉.材料带隙和阴极功函数对有机太阳能电池开路电压的分析[J].江西师范大学学报(自然科学版),2014,(06):610-614.
 WANG Chuan-kun,MAO Yu-ting,MENG Shi-jia.The Theoretical Analysis on the Effect of the Band Gap and Cathode Work Function on the Open Circuit Voltage of Organic Solar Cell[J].Journal of Jiangxi Normal University:Natural Science Edition,2014,(06):610-614.
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材料带隙和阴极功函数对有机太阳能电池开路电压的分析()
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《江西师范大学学报》(自然科学版)[ISSN:1006-6977/CN:61-1281/TN]

卷:
期数:
2014年06期
页码:
610-614
栏目:
出版日期:
2014-12-31

文章信息/Info

Title:
The Theoretical Analysis on the Effect of the Band Gap and Cathode Work Function on the Open Circuit Voltage of Organic Solar Cell
作者:
王传坤;毛玉婷;蒙仕嘉
兴义民族师范学院,贵州 兴义,562400
Author(s):
WANG Chuan-kun;MAO Yu-ting;MENG Shi-jia
关键词:
功函数开路电压温度载流子
Keywords:
work functionopen circuit voltagetemperaturecarrier
分类号:
O469
文献标志码:
A
摘要:
利用AMPS-1D软件研究了材料带隙和阴极功函数对异质结有机太阳电池的开路电压的影响。仿真实验结果表明:有机太阳电池的开路电压和材料带隙满足线性关系;活性层材料的带隙一定时,开路电压随阴极功函数的增大而减小,同时开路电压随温度的升高而减小,并呈现一次指数衰减的趋势;活性层内部载流子的复合率随阴极功函数的增大而增大,进而导致器件内部电场强度的减小。
Abstract:
AMPS-1 D software was used to study the effect of the band gaps and the cathode material work function on the open circuit voltage of heterojunction organic solar cells. The simulation results were showed that they were linear relationship between the open circuit voltage and band gap. When the band gap of the active layer materials was fixed,the open circuit voltage was decreased with the increasing of the cathode work function and temperature which was presented an exponential decay trend. The internal carriers recombination rate of active layer was in-creased with the increasing of the cathode work function,which was resulted in the decreasing of the internal electric field intensity of device.

参考文献/References:

[1] 李萌,王传坤,李晨希,等.基于富勒烯类材料太阳能电池研究进展 [J].电子元件与材料,2013,32(2):70-76.
[2] Schmidt K,Tassone C J,Jeremy R,et al.A mechanistic understanding of processing additive-induced efficiency enhancement in bulk heterojunctionorganic solar cells [J].Advanced Materials,2014,26(2):300-305.
[3] Xu Tao,Yu Luping.How to design low bandgap polymers for highly efficient organic solar cells [J].Materials Today,2014,17(1):11-15.
[4] Zhou Huaxing,Yang Liqiang,You Wei,et al.Rational design of high performance conjugated polymers for organic solar cells [J].Macromolecules,2012,45(2):607-632.
[5] You Jingbi,Letian Dou,Ken Yoshimura,et al.A polymer tandem solar cell with 10.6% power conversion efficiency [J].Nature Communications,2013,4:1446.
[6] Zheng Qingdong,Jung Byung Jun.Ladder-type oligo-p-phenylene-containing copolymers with high open-circuit voltages and ambient photovoltaic activity [J].Journal of the American Chemical Society,2010,132(15):5394-5404.
[7] Ratcliff E L,Garcia A,Paniagua S,et al.Investigating the influence of interfacial contact properties on open circuit voltages in organic photovoltaic performance:Work function versus selectivity [J].Advanced Energy Materials,2013,3(5):647-656.
[8] Wang Hongyu,Liu Feng,Bu Laju,et al.The role of additive in diketopyrrolopyrrole-based small molecular bulk heterojunction solar cells [J].Advanced Materials,2013,25(45):6519-6525.
[9] Kodali H K,Ganapathysubramanian B.Computer simulation of heterogeneous polymer photovoltaic devices [J].Modelling and Simulation in Materials Science and Engineering,2012,20(3):35015.
[10] Wang J,Ren X,Shi S,et al.Charge accumulation induced S-shape J-V curves in bilayer heterojunction organic solar cells [J].Organic Electronics,2011,12(6):880-885.
[11] Savoie B,Tan S,Jerome J,et al.Ascertaining the limitations of low mobility on organic solar cell performance [C].Computational Electronics(IWCE),2012,15th International Workshop on,IEEE.
[12] Kirchartz T,Gong W,Hawks S,et al.Sensitivity of the Mott-Schottky analysis in organic solar cells [J].The Journal of Physical Chemistry C,2012,116(14):7672-7680.
[13] Veldman D,Meskers S,Janssen R,et al.Theenergy of charge-transfer states in electron donor-acceptor blends:insight into the energy losses in organic solar cells [J].Advanced Functional Materials,2009,19(12):1939-1948.

备注/Memo

备注/Memo:
贵州省科技厅基金(黔科合LH字
[2014]7410号);贵州省教育厅基金(黔教合KY字
[2014]318);黔西南州科技局科技计划(2013-3);贵州省大学生创新课题(201410666018)
更新日期/Last Update: 1900-01-01