Abstract
For transparent solar cells, Sn:In2O3/Pb(Zr, Ti)TiO3/Pt(⩽5nm)/Sn:In2O3 capacitor structures were fabricated using a cost-effective solution process. The insertion of ultra-thin Pt layer between the bottom Sn:In2O3 electrode and Pb(Zr, Ti)TiO3 plays a critical role in the photovoltaic characteristics of the capacitors. The Pb(Zr,Ti)O3 capacitors with a 5nm thick Pt layer showed excellent polarization–voltage curves with reduced leakage current due to both partial (111) orientation of Pb(Zr,Ti)O3 and alloy formation between Pt and the Sn:In2O3 bottom electrode, as confirmed using X-ray photoelectron spectra analysis. The capacitors with a 5nm thick Pt layer exhibit transmittance of 45–50% in the visible light region. The current density–voltage characteristics under light illumination (AM1.5G) exhibit an open circuit voltage value of −0.62V and short circuit current density of 0.6μA/cm2 after negative poling, with a maximum power conversion efficiency of 1.7×10−4%. The open circuit voltage of the capacitors with a 5nm thick Pt layer is larger with negative poling due to the higher net internal bias arising from the Schottky barrier.
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