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W2043673032 abstract "The electrical responses of materials and devices subjected to thermal inputs, such as the Seebeck effect and pyroelectricity, are of great interest in thermal-electric energy conversion applications. Of particular interest are phenomena which exploit heterogeneities in the mechanics of heterostructured materials for novel and unexplored mechanisms in thermal-electric conversion. Here we introduce a new and universal mechanism for converting thermal stimuli into electricity via structural heterogeneities, which we term “pyro-paraelectricity.” Specifically, when a paraelectric material is grown on a substrate with a different lattice constant, the paraelectric layer experiences an inhomogeneous strain due to the lattice mismatch, establishing a strain gradient along the axis of the layer thickness. This induced strain gradient can be multiple orders of magnitude higher than strain gradients in bulk materials imparted by mechanical bending (0.1 m -1 ). Consequently, charge separation is induced in the paraelectric layer via flexoelectricity, leading to a polarization in proportion to the dielectric constant. The dielectric constant, and thus the polarization, changes with temperature. Therefore, when a strained metal-insulator-metal (MIM) heterostructure is subjected to a thermal input, changes in the permittivity generate an electrical response. We demonstrate this mechanism by employing a MIM heterostructure with a high permittivity sputtered barium strontium titanate (BST) film as the insulating layer in a platinum sandwich. The resulting strain gradient of more than 10 4 m -1 , an enhancement of five orders of magnitude due to the structural heterogeneity, was verified by an X-ray diffraction scan. With an applied thermal input, the strained MIM heterostructure generated current which was highly correlated to the thermal input. A theoretical model was found to be consistent with the experimental data. These results demonstrate the existence of “pyro-paraelectricity,” a flexoelectricity-mediated mechanism for thermal-electrical conversion." @default.
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W2043673032 date "2015-03-27" @default.
W2043673032 modified "2023-09-27" @default.
W2043673032 title "Pyro-paraelectricity: a new effect in hetergeneous material architectures" @default.
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W2043673032 doi "https://doi.org/10.1117/12.2083644" @default.
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