A new type of lead-free, formamidinium (FA)-based halide perovskites, FASnf2Br, are investigated as light-harvesting materials for low-temperature processed p-i-n heterojunction solar cells with different configurat...A new type of lead-free, formamidinium (FA)-based halide perovskites, FASnf2Br, are investigated as light-harvesting materials for low-temperature processed p-i-n heterojunction solar cells with different configurations. The FASnlaBr perovskite, with a band-gap of 1.68 eV, exhibits optimal photovoltaic performance after low-temperature annealing at 75 ~C. By using C60 as electron-transport layer, the device yields a hysteresis-less power conversion efficiency of 1.72%. The possible use of an inorganic MoO~ film as a new type of independent hole-transport layer for the present tin-based perovskite solar cells is also demonstrated.展开更多
An efficient panchromatic planar perovskite solar cell is developed based on highly uniform,lead-reduced CH3NH3Sn0.5Pb0.5I3 perovskite films with full film-coverage on the substrates.We demonstrate here that full-cove...An efficient panchromatic planar perovskite solar cell is developed based on highly uniform,lead-reduced CH3NH3Sn0.5Pb0.5I3 perovskite films with full film-coverage on the substrates.We demonstrate here that full-coverage of the CH3NH3Sn0.5Pb0.5I3 films can be developed by a facile chlorobenzene-assisted spin-coating method.A power conversion efficiency of 7 % is achieved using low-temperature processes,which is among the best-reported performance for panchromatic planar perovskite solar cells with a light-absorption over 1,000 nm.展开更多
文摘A new type of lead-free, formamidinium (FA)-based halide perovskites, FASnf2Br, are investigated as light-harvesting materials for low-temperature processed p-i-n heterojunction solar cells with different configurations. The FASnlaBr perovskite, with a band-gap of 1.68 eV, exhibits optimal photovoltaic performance after low-temperature annealing at 75 ~C. By using C60 as electron-transport layer, the device yields a hysteresis-less power conversion efficiency of 1.72%. The possible use of an inorganic MoO~ film as a new type of independent hole-transport layer for the present tin-based perovskite solar cells is also demonstrated.
基金Financial support from the CRC for Polymers,established under the Cooperative Research Centres ProgrammeAustralian Research Council Discovery Projects (ARC DPs)+1 种基金Future Fellowship (FT) programs are acknowledgedthe support from International Postgraduate Research Scholarship (IPRS)
文摘An efficient panchromatic planar perovskite solar cell is developed based on highly uniform,lead-reduced CH3NH3Sn0.5Pb0.5I3 perovskite films with full film-coverage on the substrates.We demonstrate here that full-coverage of the CH3NH3Sn0.5Pb0.5I3 films can be developed by a facile chlorobenzene-assisted spin-coating method.A power conversion efficiency of 7 % is achieved using low-temperature processes,which is among the best-reported performance for panchromatic planar perovskite solar cells with a light-absorption over 1,000 nm.
