Abstract

The first detailed study that combines the use of a new generation of high-efficiency Yb3+:Ho3+ co-doped Y2BaZnO5 near-infrared up-converting phosphors with organic photovoltaic devices is reported. We show that it is possible to obtain a Jsc of 16 μA cm−2 under 986 nm illumination (∼390 mW cm−2 corresponding to ∼37 suns) leading to an up-conversion external quantum efficiency (ηEQEUC) of 0.0052%. Through modification of the organic photovoltaic devices to incorporate transparent electrodes we show that ηEQEUC could be increased to 0.031 %, matching that achieved in amorphous-Si:H PV cells. Accounting for the full spectral range that may be absorbed by the phosphor (∼870–1030 nm) yields an up-conversion power conversion efficiency (ηPCEUC) of 0.073% which again could be improved to 0.45% using transparent electrodes. This technique for utilizing the near-infrared spectral region may therefore offer a potential route to improving the performance of organic photovoltaic devices as research into discovering high-efficiency up-converting phosphors continues to provide improved materials.