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W4310147362 endingPage "9305" @default.
W4310147362 startingPage "9297" @default.
W4310147362 abstract "The bulk photovoltaic effect that is intimately associated with crystalline symmetry has been extensively studied in various nonmagnetic materials, especially ferroelectrics with a switchable electric polarization. In order to further engineer the symmetry, one could resort to spin-polarized systems possessing an extra magnetic degree of freedom. Here, we investigate the bulk photovoltaic effect in two-dimensional magnetic sliding ferroelectric (MSFE) systems, illustrated in VSe2, FeCl2, and CrI3 bilayers. The transition metal elements in these systems exhibit intrinsic spin polarization, and the stacking mismatch between the two layers produce a finite out-of-plane electric dipole. Through symmetry analyses and first-principles calculations, we show that photoinduced in-plane bulk photovoltaic current can be effectively tuned by their magnetic order and the out-of-plane dipole moment. The underlying mechanism is elucidated from the quantum metric dipole distribution in the reciprocal space. The ease of the fabrication and manipulation of MSFEs guarantee practical optoelectronic applications." @default.
W4310147362 created "2022-11-30" @default.
W4310147362 creator A5006077822 @default.
W4310147362 creator A5050493397 @default.
W4310147362 creator A5053490772 @default.
W4310147362 date "2022-11-28" @default.
W4310147362 modified "2023-10-14" @default.
W4310147362 title "Tailoring Bulk Photovoltaic Effects in Magnetic Sliding Ferroelectric Materials" @default.
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W4310147362 doi "https://doi.org/10.1021/acs.nanolett.2c02802" @default.
W4310147362 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36441961" @default.
W4310147362 hasPublicationYear "2022" @default.
W4310147362 type Work @default.
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