Strongly enhanced and tunable photovoltaic effect in ferroelectric-paraelectric superlattices

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Abstract

Ever since the first observation of a photovoltaic effect in ferroelectric BaTiO3, studies have been devoted to analyze this effect, but only a few attempted to engineer an enhancement. In conjunction, the steep progress in thin-film fabrication has opened up a plethora of previously unexplored avenues to tune and enhance material properties via growth in the form of superlattices. In this work, we present a strategy wherein sandwiching a ferroelectric BaTiO3 in between paraelectric SrTiO3 and CaTiO3 in a superlattice form results in a strong and tunable enhancement in photocurrent. Comparison with BaTiO3 of similar thickness shows the photocurrent in the superlattice is 103 times higher, despite a nearly two-thirds reduction in the volume of BaTiO3. The enhancement can be tuned by the periodicity of the superlattice, and persists under 1.5 AM irradiation. Systematic investigations highlight the critical role of large dielectric permittivity and lowered bandgap.

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Yun, Y., Mühlenbein, L., Knoche, D. S., Lotnyk, A., & Bhatnagar, A. (2021). Strongly enhanced and tunable photovoltaic effect in ferroelectric-paraelectric superlattices. Science Advances, 7(23). https://doi.org/10.1126/sciadv.abe4206

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