2018
DOI: 10.1146/annurev-matsci-070616-124023
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High-Performance Piezoelectric Crystals, Ceramics, and Films

Abstract: Piezoelectric materials convert between electrical and mechanical energies such that an applied stress induces a polarization and an applied electric field induces a strain. This review describes the fundamental mechanisms governing the piezoelectric response in high-performance piezoelectric single crystals, ceramics, and thin films. While there are a number of useful piezoelectric small molecules and polymers, the article focuses on inorganic materials displaying the piezoelectric effect. Piezoelectricity is… Show more

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Cited by 171 publications
(103 citation statements)
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“…[27][28][29] The first is the small-signal piezoelectric coefficient which is determined by the slope of the strain response at low electric fields when the strain response is still linear. [25,32] The effective d 33 * (large-signal piezoelectric coefficient) of our BNKT ceramics is higher than small-signal d 33 , as shown in Figure 1d. The second is the large-signal piezo-response which is measured at high electric fields where the strain-field response deviates from linearity.…”
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confidence: 75%
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“…[27][28][29] The first is the small-signal piezoelectric coefficient which is determined by the slope of the strain response at low electric fields when the strain response is still linear. [25,32] The effective d 33 * (large-signal piezoelectric coefficient) of our BNKT ceramics is higher than small-signal d 33 , as shown in Figure 1d. The second is the large-signal piezo-response which is measured at high electric fields where the strain-field response deviates from linearity.…”
mentioning
confidence: 75%
“…Using the Voigt notation, [30,31] we call this d 33 when the measured electric charge is parallel to the direction of strain. The effective d 33 * of BNKT ceramics is calculated as www.advelectronicmat.de 283 pm V −1 from the ratio of S max /E max and the small-signal d 33 is measured as 190 pC N −1 by a d 33 meter. The large-signal piezoelectric coefficient is defined at a specific electric field strength E, where the strain output deviates significantly toward nonlinearity.…”
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confidence: 99%
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“…Nylon is organic material with excellent flexible properties, but it have even weaker d 33 of 2 pC N −1 . One‐composition non‐ferroelectric piezoelectric, such as ZnO (3 pC N −1 ), ZnS(3.2 pC N −1 ), SiO 2 (2 pC N −1 ), alpha‐quartz (2.31 pC/N), generally exhibit weak piezoelectric performance. Typical ferroelectric piezoelectric Diisopropylammonium Bromide(DIPAB) (11 pC N −1 ), KTP(6.1 pC N −1 ) and LiNbO 3 (11 pC N −1 ) also exhibit very general piezoelectric effect.…”
Section: Resultsmentioning
confidence: 99%