Refreshing Piezoelectrics: Distinctive Role of Manganese in Lead-Free Perovskites
Article 2018 en
Authors
FY
Fang‐Zhou Yao
MZ
Mao‐Hua Zhang
KW
Ke Wang
Abstract
1 min read
Driven by an ever-growing demand for environmentally compatible materials, the past two decades have witnessed the booming development in the field of piezoelectrics. To maximally explore the potential of lead-free piezoelectrics, chemical doping could be an effective approach, referenced from tactics adopted in lead-based piezoelectrics. Herein, we reveal the distinct role of manganese in a promising lead-free perovskite (K, Na)NbO<sub>3</sub> (denoted by KNN) in comparison to that in market-dominating lead-based counterparts [Pb(Zr, Ti)O<sub>3</sub>, PZT]. In contrast to the scenario in PZT, manganese doping in KNN results in tremendously improved piezoelectric coefficient d<sub>33</sub> by nearly 200%, whereas the same doping species in PZT deteriorates the d<sub>33</sub> down to less than 30% of its original value. The result is rationalized from macroscopic and local electrical characterizations down to atomic-scale visualization. This study demonstrates that there is enormous space to further enhance piezoelectricity in lead-free systems because the chemical doping effect may completely differ in lead-containing and lead-free perovskites.
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