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MEH-PPV和PCBM共混体系光电池中电荷传输及性能与光强的关系 被引量:4

Charge Transport and the Relationship Between Performance and Light Intensity of the Solar Cell Based on the Blend of MEH-PPV and PCBM
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摘要 以MEH-PPV{poly[2-methoxy-5-(2′-ethylhexoxy)]-1,4-phenylene vinylene}作为电子给体材料,PCBM[1-(3-methoxycarbonyl)-propyl-1-1-phenyl-(6,6)C61]作为电子受体材料,制成了共混体系的高性能太阳电池.光电池在100 mW/cm2强度光照下,其开路电压Voc为0.8 V,短路电流密度Jsc为5.06 mA/cm2,填充因子FF为48.1%,能量转换效率η为1.93%.UV-Vis及PL图表明,MEH-PPV与PCBM之间没有发生化学变化,但有明显的荧光猝灭,说明光生激子能有效地快速分离,并在各自的传输网络中传递.分析了光照及暗导I-V曲线的物理意义,探讨了MEH-PPV与PCBM之间的电荷传输,研究了在不同强度的光照下器件性能的变化.随着光强的增加,器件的短路电流密度线性增大,开路电压也略有升高,并联电阻和填充因子下降,串联电阻变化不明显.分析了其物理机理,并进行了合理的解释. The highly efficient solar cells based on the blend of MEH-PPV { poly [ 2-methoxy-5-( 2'-ethylhexoxy ) ]-1,4-phenylene vinylene } as a donor and PC BM [ 1-(3-methoxycarbonyl) -propyl-1-1 -phenyl-( 6,6 ) C61 ] as an acceptor were fabricated. We obtained an open circuit voltage of 0.8 V, short circuit current density of 5.06 mA/cm^2 and fill factor of 48.1% under 100 mA/cm^2 air-mass 1.5 solar simulator illumination, yielding a 1.93% power conversion efficiency. There was not chemistry reaction between MEH-PPV and PCBM from their UV-Vis chart. The intense PL of MEH-PPV was, however, almost completely quenched, implying the excitons are effectively separated on the interface of donor and acceptor and transported in bicontinuous path. We alse analyzed physical meaning of the I- V curve chart under illumination and dark condition, discussed the charge transport between MEH-PPV and PCBM, and studied the diversification of solar cells performance at different light intensity. With the increase of incident light intensity, the short circuit current density of the solar cells enhanced, open circuit voltage increased slowly, the parallel resistance and the fill factor descended, series resistance did not change distinctly.
出处 《高等学校化学学报》 SCIE EI CAS CSCD 北大核心 2007年第12期2359-2363,共5页 Chemical Journal of Chinese Universities
基金 国家'九七三'计划(批准号:2002CB613405) 国家自然科学基金(批准号:90201023) 华南理工大学自然科学基金(批准号:E5040910)资助
关键词 太阳电池 聚合物 电子给体材料 电子受体材料 Solar cell Polymer Electronic donor material Electronic acceptor material
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参考文献14

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