| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1441721 | Synthetic Metals | 2012 | 6 Pages |
A multi-layered polymer solar cell (PSC) with a graded compositional profile to reduce space-charge limited (SCL) transport was designed and analyzed in details. We found that by increasing the effective carrier lifetime for the slower photo-carriers, SCL effects that degrade the fill factor and the power conversion efficiency can be alleviated in PSCs with a thick active layer. The reduction of SCL effects was evidenced by a diminished dependence of the incident photon-to-electron conversion efficiency (IPCE) on light bias, which also indicates the importance of light bias in characterizing the operating IPCE of PSCs with thick active layers which operate in SCL region. Based on our results, device architecture to enhance FF was proposed.
► A method to reduce space-charge limited effects in organic solar cell was analyzed. ► Tradeoff between carrier transport and light absorption was alleviated. ► Thick active layer can be used without scarifying fillfactor in organic solar cells. ► DC light bias was found crucial in measuring IPCE near the operating point.
