PHYSICAL AND ELECTRICAL PROPERTIES ENHANCEMENT OF RARE-EARTH DOPED-POTASSIUM SODIUM NIOBATE (KNN): A REVIEW

PHYSICAL AND ELECTRICAL PROPERTIES ENHANCEMENT OF RARE-EARTH DOPED-POTASSIUM SODIUM NIOBATE (KNN): A REVIEW

Alkaline niobate mainly potassium sodium niobate, (KxNa1-x) NbO3 (abreviated as KNN) has long attracted attention as piezoelectric materials as its high Curie temperature (Tc) and piezoelectric properties. The volatility of alkaline element (K, Na) is, however detrimental to the stoichiometry of KNN...

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Bibliographic Details
Main Authors: Akmal Mat Harttat Maziati, Warikh Aabd Rashid Mohd, Azlan Umar Al Amani
Format: Article
Language:English
Published: University of Chemistry and Technology, Prague 2015-06-01
Series:Ceramics-Silikáty
Subjects:
Potassium sodium niobate
Piezoelectric
Volatility
Intrinsic defects
Rare earths
Online Access: http://www.ceramics-silikaty.cz/2015/pdf/2015_02_158.pdf
Description
Summary:Alkaline niobate mainly potassium sodium niobate, (KxNa1-x) NbO3 (abreviated as KNN) has long attracted attention as piezoelectric materials as its high Curie temperature (Tc) and piezoelectric properties. The volatility of alkaline element (K, Na) is, however detrimental to the stoichiometry of KNN, contributing to the failure to achieve high-density structure and lead to the formation of intrinsic defects. By partially doping of several rare-earth elements, the inherent defects could be improved significantly. Therefore, considerable attempts have been made to develop doped-KNN based ceramic materials with high electrical properties. In this paper, these research activities are reviewed, including dopants type and doping role in KNN perovskite structure.
ISSN:0862-5468
1804-5847

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