Effects of （LiCe） co-substitution on the structural and electrical properties of CaBi2Nb209 ceramics  被引量：3

出　　处：《Chinese Physics B》2012年第3期448-452,共5页中国物理B（英文版）

基　　金：Project supported by the National Natural Science Foundation of China （Grant Nos. 50632030 and 10804130） and the Shaanxi Provincial Natural Science Foundation, China （Grant No. 2011JM6012）.

摘　　要：The piezoelectric, dielectric, and ferroelectric properties of the （LiCe） co-substituted calcium bismuth niobate （CaBi2Nb209, CBNO） are investigated. The piezoelectric properties of CBNO ceramics are significantly enhanced and the dielectric loss tan 5 decreased. This makes poling using （LiCe） co-substitution easier. The ceramics （where represents A-site Ca2＋ vacancies, possess a pure layered structure phase and no other phases can be found. The Cao.ss（LiCe）0.04[]0.04Bi2Nb209 ceramics possess optimal piezoelectric properties, with piezoelectric coefficient （d33） and Curie temperature （Tc） found to be 13.3 pC/N and 960 ℃ respectively. The dielectric and piezoelectric properties of the （LiCe） co-substituted CBNO ceramics exhibit very stable temperature behaviours. This demonstrates that the CBNO ceramics are a promising candidate for ultrahigh temperature applications.The piezoelectric, dielectric, and ferroelectric properties of the （LiCe） co-substituted calcium bismuth niobate （CaBi2Nb209, CBNO） are investigated. The piezoelectric properties of CBNO ceramics are significantly enhanced and the dielectric loss tan 5 decreased. This makes poling using （LiCe） co-substitution easier. The ceramics （where represents A-site Ca2＋ vacancies, possess a pure layered structure phase and no other phases can be found. The Cao.ss（LiCe）0.04[]0.04Bi2Nb209 ceramics possess optimal piezoelectric properties, with piezoelectric coefficient （d33） and Curie temperature （Tc） found to be 13.3 pC/N and 960 ℃ respectively. The dielectric and piezoelectric properties of the （LiCe） co-substituted CBNO ceramics exhibit very stable temperature behaviours. This demonstrates that the CBNO ceramics are a promising candidate for ultrahigh temperature applications.

关 键 词：co-substitution structural properties electrical properties CaBi2Nb209 

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