Research progress,doping strategies and dielectric-ferroelectric anomalies of rare earth-based Bi_(0.5)Na_(0.5)TiO_(3) perovskites  

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作  者:Subramani Supriya 

机构地区:[1]Research Rhombus Technologies(RR Tech-Non-profit and Non-commercial),Chennai,600099,Tamilnadu,India

出  处:《Journal of Rare Earths》2024年第11期2003-2017,I0001,共16页稀土学报(英文版)

摘  要:Rare earth-based functional perovskites have received significant attention due to increasing energy crisis problems and environmental pollution.Many non-toxic,lead-free materials have been investigated;bismuth sodium titanate(Bi_(0.5)Na_(0.5)TiO_(3)) has gotten significant attention because of its unique morphological,structural,and electrical properties.Also,the emergence of bismuth sodium titanate with a high remnant polarization has revived the application of inorganic materials in electronic devices.This type of ferroelectrics is known to display new functionalities coupled with ferroic orders.In recent years,research in the field of inorganic-based ferroelectrics,mainly Bi_(0.5)Na_(0.5)TiO_(3)(BNT),has been thriving toward enhanced electronic device performance.Doping rare earth elements in BNT compounds has achieved significant electrical properties.This article summarizes prominent theories associated with ferroelectric-dielectric mechanisms and provides the most recent progress in rare earth-based BNT systems.Emphasis is placed on design of principles toward tailoring the crystal structure via doping effect and oxygen vacancies,as well as domain engineering.Finally,the critical investigation is accompanied by future perspectives,including integrating rare earth BNT perovskites for high-performance ferroelectric devices.

关 键 词:BNT FERROELECTRIC DIELECTRIC Crystal structure DOPING Rare earth elements 

分 类 号:TB34[一般工业技术—材料科学与工程]

 

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