Large field-induced strains in a lead-free piezoelectric material
Publication Type | Journal Article
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Authors | |
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DOI |
10.1038/nnano.2010.265
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Abstract |
Piezoelectric materials exhibit a mechanical response to electrical inputs, as well as an electrical response to mechanical inputs, which makes them useful in sensors and actuators1. Lead-based piezoelectrics demonstrate a large mechanical response, but they also pose a health risk2. The ferroelectric BiFeO3 is an attractive alternative because it is lead-free, and because strain can stabilize BiFeO3 phases with a structure that resembles a morphotropic phase boundary3. Here we report a reversible electric-field-induced strain of over 5% in BiFeO 3 films, together with a characterization of the origins of this effect. In situ transmission electron microscopy coupled with nanoscale electrical and mechanical probing shows that large strains result from moving the boundaries between tetragonal- and rhombohedral-like phases, which changes the phase stability of the mixture. These results demonstrate the potential of BiFeO3 as a substitute for lead-based materials in future piezoelectric applications. © 2011 Macmillan Publishers Limited. All rights reserved.
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Notes |
cited By 217
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Journal |
Nature Nanotechnology
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Volume |
6
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Year of Publication |
2011
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Number |
2
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Pagination |
98-102
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Publisher |
Nature Publishing Group
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ISSN Number |
17483387
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Keywords |
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Research Areas | |
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