The interfaces between electrodes/photoactive layer play a determinative role on the performance of polymer solar cells (PSCs), improving the contact between electrodes and photoactive layer via interface engineering has been demonstrated to an effective solution to enhance the performance of PSCs. Graphenes have been generally applied as hole extraction layer in PSCs to replace the commonly used poly(3,4-ethylendedioxythiophene):poly(styrenesulfonate) (PEDOT:PSS) which is acidic and might damage the ITO electrode owing to its hygroscopicity. Here we applied a new functionalized graphene, which is a graphene-fullerene composite (rGO-pyrene-PCBM), as electron extraction layer (EEL), leading to an efficiency enhancement of ~15% for PSCs based on P3HT:PCBM. Contrarily, the comparative devices incorporating the rGO or pyrene-PCBM component as EEL showed dramatically decreased PCE, indicating the importance of composite formation between rGO and pyrene-PCBM components for its electron extraction property. Besides, we recently incorporated other analogous 2D materials, resulting in dramatic performance improvement as well.

The interfaces between electrodes/photoactive layer play a determinative role on the performance of polymer solar cells (PSCs), improving the contact between electrodes and photoactive layer via interface engineering has been demonstrated to an effective solution to enhance the performance of PSCs. Graphenes have been generally applied as hole extraction layer in PSCs to replace the commonly used poly(3,4-ethylendedioxythiophene):poly(styrenesulfonate) (PEDOT:PSS) which is acidic and might damage the ITO electrode owing to its hygroscopicity. Here we applied a new functionalized graphene, which is a graphene-fullerene composite (rGO-pyrene-PCBM), as electron extraction layer (EEL), leading to an efficiency enhancement of ~15% for PSCs based on P3HT:PCBM. Contrarily, the comparative devices incorporating the rGO or pyrene-PCBM component as EEL showed dramatically decreased PCE, indicating the importance of composite formation between rGO and pyrene-PCBM components for its electron extraction property. Besides, we recently incorporated other analogous 2D materials, resulting in dramatic performance improvement as well.