Enhanced Fill Factor and Power Conversion Efficiency of Single Oxide Ferroelectric Photovoltaic Devices with Designed Nanostructures

Abstract: The ferroelectric photovoltaic effect has promising potential for the next generation of solar cells. However, due to disadvantages such as wide bandgap and low fill factor (FF), the power conversion efficiency (PCE) values reported in ferroelectric photovoltaic devices remain considerably below expectations. Herein, enhanced photovoltaic effect in the films with the nanostructure of ferroelectric nanocrystalline particles embedded in the amorphous or poor crystalline matrix is investigated. The nanostructures… Show more

“…Oxide-group materials have wide potential application in ferroelectric, photocatalysis and photovoltaic elds. 1,2 Perovskite materials with R3c structure show a unique application prospect in the eld of ferroelectric photovoltaics due to the internal electric eld. 3,4 For example, BiFeO 3 and LiNbO 3 with R3c structure have internal ferroelectric polarization electric elds, which can promote carrier separation without the p-n junction.…”

Tuning ferroelectric photovoltaic performance in R3c-CuNbO₃ through compressive strain engineering: a first-principles study

“…Oxide-group materials have wide potential application in ferroelectric, photocatalysis and photovoltaic elds. 1,2 Perovskite materials with R3c structure show a unique application prospect in the eld of ferroelectric photovoltaics due to the internal electric eld. 3,4 For example, BiFeO 3 and LiNbO 3 with R3c structure have internal ferroelectric polarization electric elds, which can promote carrier separation without the p-n junction.…”

Tuning ferroelectric photovoltaic performance in R3c-CuNbO₃ through compressive strain engineering: a first-principles study

Probing ballistic photovoltaic currents in Bi6-Pr Ti3Fe2O18 multiferroics

Strain tunable high absorptivity and carrier mobility in two-dimensional multiferroic Cr2SOCl2 monolayer