High efficiency organic photovoltaic cells based on inverted SubPc/C60/ITO cascade junctions

Conventional heterojunction organic photovoltaic cells typically involve the deposition of the electron donor layer (or donor–acceptor blend) on top of a transparent anode, with the cathode deposited last. Inverting the structure and deposition sequence usually worsens the performance characteristics, except device lifetime. We compare conventional (SubPc/C₆₀) and inverted (C₆₀/SubPc) junctions, the latter exhibiting a power conversion efficiency of 3.5%. We also find a significant trade-off between the open circuit voltage and short circuit photocurrent, potentially attributable to the formation of a C₆₀/ITO Schottky junction, and a change from exciton-quenching to exciton-blocking behavior of the SubPc:MoO_X interface in inverted devices.