Metal halide perovskites are set to revolutionise photovoltaic energy harvesting owing to an unmatched combination of high efficiency and low fabrication costs. However, to improve the sustainability of this technology, replacing lead with less toxic tin is highly desired. Tin halide perovskites are approaching 15% in power conversion efficiency (PCE), mainly employing PEDOT:PSS as a hole-selective layer. Unfortunately, PEDOT:PSS is processed from an aqueous solution, which is hardly compatible with the strict anoxic requirements for processing tin halide perovskites due to tin's instability to oxidation. Here, we present a water-free PEDOT formulation for developing tin-based lead-free perovskite solar cells. We show that the main difference between the PCE of devices made from aqueous and water-free PEDOT is due to the marked hydrophobicity of the latter, which complicates the perovskite deposition. By modifying the surface of water-free PEDOT with a thin Al2O3 interlayer, we could a...
Enabling water-free PEDOT as hole selective layer in lead-free tin perovskite solar cells / DI GIROLAMO, Diego; Aktas, Ece; Ponti, Corinna; Pascual, Jorge; Li, Guixiang; Li, Meng; Nasti, Giuseppe; Alharthi, Fahad; Murae, Francesco; Abate, Antonio. - In: MATERIALS ADVANCES. - ISSN 2633-5409. - 3:24(2022), pp. 9083-9089. [10.1039/d2ma00834c]
Enabling water-free PEDOT as hole selective layer in lead-free tin perovskite solar cells
Diego Di Girolamo;Ece Aktas;Corinna Ponti;Giuseppe Nasti;Antonio Abate
2022
Abstract
Metal halide perovskites are set to revolutionise photovoltaic energy harvesting owing to an unmatched combination of high efficiency and low fabrication costs. However, to improve the sustainability of this technology, replacing lead with less toxic tin is highly desired. Tin halide perovskites are approaching 15% in power conversion efficiency (PCE), mainly employing PEDOT:PSS as a hole-selective layer. Unfortunately, PEDOT:PSS is processed from an aqueous solution, which is hardly compatible with the strict anoxic requirements for processing tin halide perovskites due to tin's instability to oxidation. Here, we present a water-free PEDOT formulation for developing tin-based lead-free perovskite solar cells. We show that the main difference between the PCE of devices made from aqueous and water-free PEDOT is due to the marked hydrophobicity of the latter, which complicates the perovskite deposition. By modifying the surface of water-free PEDOT with a thin Al2O3 interlayer, we could a...I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.