Journal
JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS
Volume 30, Issue 11, Pages 10064-10072Publisher
SPRINGER
DOI: 10.1007/s10854-019-00868-2
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Bulk heterojunction organic solar cells with four different Urbach's tail width energies (EU) are simulated, and the combined influence of EU and charge carrier mobility on the short circuit current (Jsc), open circuit voltage (Voc), fill factor (FF), power conversion efficiency (PCE), Langevin and tail state recombination is investigated. The results show that Jsc decreases more drastically with increasing EU in the lower mobility range and then asymptotically converges to a single value in the large mobility range. Likewise, with the increase in mobility, Voc decreases nearly linearly with different slopes depending on different EU in the lower mobility range and then different slopes converge to a single slope in the larger mobility range. Thus, Voc becomes EU independent in the higher mobility range. Furthermore, it is found that by increasing EU, the maximum values of FF and PCE shift towards the higher mobility range. It is shown that the influence of combined optimization of EU and mobility enhances both FF and PCE, but its effect on FF is much more significant than that on PCE.
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