Effects of Illumination Intensity and Temperature on Double-layer Heterojunction Organic Photovoltaic Device Performance

LI Wei-min; GUO Jin-chuan; SUN Xiu-quan; ZHOU Bin

doi:10.3788/fgxb20113207.0724

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Effects of Illumination Intensity and Temperature on Double-layer Heterojunction Organic Photovoltaic Device Performance

paper | 更新时间：2020-08-12

- Effects of Illumination Intensity and Temperature on Double-layer Heterojunction Organic Photovoltaic Device Performance
- Chinese Journal of Luminescence Vol. 32, Issue 7, Pages: 724-728(2011)
- 作者机构：
  
  1. 深圳大学机电与控制工程学院,广东深圳,518060
  2. 深圳大学光电工程学院,广东深圳,518060
  3. 深圳大学电子科学与技术学院,广东深圳,518060
- 作者简介：
- 基金信息：
- DOI：10.3788/fgxb20113207.0724
  CLC： TM914;O621.22
- Received：15 January 2011，
  
  Revised：24 March 2011，
  
  Published Online：22 July 2011，
  
  Published：22 July 2011
- 稿件说明：
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李卫民, 郭金川, 孙秀泉, 周彬. 辐照强度及温度对双层异质结有机光伏器件性能的影响[J]. 发光学报, 2011,32(7): 724-728

LI Wei-min, GUO Jin-chuan, SUN Xiu-quan, ZHOU Bin. Effects of Illumination Intensity and Temperature on Double-layer Heterojunction Organic Photovoltaic Device Performance[J]. Chinese Journal of Luminescence, 2011,32(7): 724-728
李卫民, 郭金川, 孙秀泉, 周彬. 辐照强度及温度对双层异质结有机光伏器件性能的影响[J]. 发光学报, 2011,32(7): 724-728 DOI： 10.3788/fgxb20113207.0724.

LI Wei-min, GUO Jin-chuan, SUN Xiu-quan, ZHOU Bin. Effects of Illumination Intensity and Temperature on Double-layer Heterojunction Organic Photovoltaic Device Performance[J]. Chinese Journal of Luminescence, 2011,32(7): 724-728 DOI： 10.3788/fgxb20113207.0724.

摘要

制备了基于CuPc/C

双层异质结有机光伏器件

研究不同光辐照强度及温度对器件性能的影响。测试结果表明:辐照强度直接决定器件的短路电流大小

但对开路电压影响不大;器件的短路电流对温度依赖性不强

但随着温度的降低

器件的开路电压逐渐增大。结合实验数据从理论上解释了光辐照强度及温度与有机光伏器件短路电流密度和开路电压的关系

为有机太阳能电池性能的改善提供了研究基础。

Abstract

This article fabricated the CuPc/C

double-layer heterojunction organic photovoltaic devices

investigated the effects of different illumination intensity and temperature on device performance. The results showed that the illumination density directly determined the value of photocurrent under short circuit condition

while had little effect on the open circuit voltage. The short circuit density had little weak dependence on temperature. The device exhibited larger open circuit voltage with the reduction of temperature. According to the experimental data

This article theoretically analyzed the relationship of illumination intensity

tempe-rature short

circuit density and open circuit voltage

which provided a research foundation for the high performance of organic solar cells.

关键词

Keywords

references

Spanggaard H, Krebs F C. A brief history of the development of organic and polymeric photovoltaics [J]. Solar Energy Materials & Solar Cells, 2004, 83 (2-3):125-146.[2] Barec C J. Organic photovoltatics: Technology and market [J]. Solar Energy Materials & Solar Cells, 2004, 83 (2-3):273-292.[3] Monestier F, Simon J J, Torchio P, et al. Modeling the short-circuit current density of polymer solar cells based on P3HT ∶ PCBM blend [J]. Solar Energy Materials & Solar Cells, 2007, 91 (5):405-410.[4] Koster L J A, Simon J J, Smits E C P, et al. Device model for the operation of polymer/fullerene bulk heterojunction solar cells [J]. Phys. Rev. B, 2005, 72 (8):085205-1-9.[5] Yu Huangzhong, Peng Junbiao, Zhou Xiaoming. The performance of solar cell based on blends of MEH-PPV and PCBM of various compositions [J]. Acta Physica Sinica (物理学报), 2008, 57 (6):3898-3904 (in Chinese).[6] Liu Z T, Lo M F, Wang H B, et al. Influnce of the donor/acceptor interface on the open-circuit voltage in organic solar cells [J]. Appl. Phys. Lett., 2009, 95 (9):093307-1-3.[7] Huang Q X, Yuan Y B, Lian J R, et al. The effects of CuPc thin film deposition rate on organic photovoltaic device performance [J]. Chin. J. Lumin.(发光学报), 2008, 29 (3):433-436 (in Chinese).[8] Li Shuang, Zhou Xiang. Effects of molybdenum oxide anode buffer layer on performance of organic solar cells [J]. Chin. J. Lumin.(发光学报), 2010, 31 (2):291-295 (in Chinese).[9] Kumar P, Jain S C, Kumar H, et al. Effect of illumination intensity and temperature on open circuit voltage in organic solar cells [J]. Appl. Phys. Lett., 2009, 94 (18):183505-1-3.[10] Xing Hongwei, Peng Yingquan, Yang Qingsen, et al. Simulation of polymer-fullerene bulk heterojunction solar cell [J]. Acta Phys. Sin. (物理学报), 2008, 57 (11):7344-7379 (in Chinese).

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