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W1990113913 abstract "Tuning the lattice degree of freedom in nanoscale functional crystals is critical to exploit the emerging functionalities such as piezoelectricity, shape‐memory effect, or piezomagnetism, which are attributed to the intrinsic lattice‐polar or lattice‐spin coupling. Here it is reported that a mechanical probe can be a dynamic tool to switch the ferroic orders at the nanoscale multiferroic phase boundaries in BiFeO 3 with a phase mixture, where the material can be reversibly transformed between the “soft” tetragonal‐like and the “hard” rhombohedral‐like structures. The microscopic origin of the nonvolatile mechanical switching of the multiferroic phase boundaries, coupled with a reversible 180° rotation of the in‐plane ferroelectric polarization, is the nanoscale pressure‐induced elastic deformation and reconstruction of the spontaneous strain gradient across the multiferroic phase boundaries. The reversible control of the room‐temperature multiple ferroic orders using a pure mechanical stimulus may bring us a new pathway to achieve the potential energy conversion and sensing applications." @default.
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W1990113913 date "2015-04-20" @default.
W1990113913 modified "2023-10-11" @default.
W1990113913 title "Mechanical Switching of Nanoscale Multiferroic Phase Boundaries" @default.
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W1990113913 doi "https://doi.org/10.1002/adfm.201500600" @default.
W1990113913 hasPublicationYear "2015" @default.
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