In this article, we demonstrate for the first time a mesoscopic printable perovskite solar cell (PSC) using NiO as the hole transporting material and low-temperature processed carbon as the counter electrode. A single deposition method assisted by N blow drying was used for the deposition of MAPbI on a TiO/ZrO/NiO screen-printed electrode. As the final step a low-temperature processing (i.e. 75 °C) carbon counter layer was fabricated on MAPbI by a blade coating method. It is found that the capping layer thickness of MAPbI has a significant effect on the device efficiency, especially when NiO is introduced as a hole transporting material into the structure. Electrochemical impedance spectroscopy demonstrates good charge transport characteristics for the device with a thin MAPbI capping layer obtained by the N blow drying method. Our best performing device demonstrated a remarkable photovoltaic performance with a short-circuit current density (J) of 22.38 mA cm, an open circuit voltage (V) of 0.97 V, and a fill factor (FF) of 0.50 corresponding to a photo-conversion efficiency (PCE) of 10.83%. Moreover, the un-encapsulated device exhibited advantageous stability over 1000 h in air in the dark.
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