摘要
质子导体氧化物在600℃下具有较高的质子导电性,在应用于开发低成本、耐用的中低温固体氧化物电池方面具有显著的优势。目前,BaZr_(1-x)Y_(x)O_(3-δ)(BZY),BaCe_(0.7-x)Zr_(x)Y_(0.2)O_(3-δ)(BCZY)和BaCe_(0.7-x)Zr_(x)Y_(0.1)Yb_(0.1)O_(3-δ)(BCZYYb)等基于Ba、Ce、Zr、Y和Yb的ABO_(3)型钙钛矿结构的质子导体电解质材料具有最优异的电化学性能。但是这些材料的烧结性能,电导性能和稳定性难以兼得,从而严重限制了它们的应用。为了在较低的烧结温度下获得具有高导电率和长期稳定的致密的电解质,最常用的方法是在质子导体氧化物中添加烧结助剂。而最近报道的研究中,烧结助剂对质子导体导电性的影响存在较大的差异。所以,本文综述了近年来烧结助剂改性的质子导电氧化物的研究进展,并详细总结了不同烧结助剂对质子导电氧化物相对密度、晶粒生长、烧结行为、体电导率和晶界电导率的影响,进而提出一些潜在的研究思路。
Proton-conducting oxides show high proton conductivity operating below 600℃,which offer s a significant advantage in developing low cost and durable solid oxide cells(SOCs)at intermediate-to-low temperature.The ABO_(3) perovskites based on Ba,Ce,Zr,Y,and Yb are state-of-the-art proton conductors such as BaZr_(1-x)Y_(x)O_(3-δ)(BZY),BaCe_(0.7-x)Zr_(x)Y_(0.2)O_(3-δ)(BCZY),and BaCe_(0.7-x)Zr_(x)Y_(0.1)Yb_(0.1)O_(3-δ)(BCZYYb).However,it is very difficult for these materials to balance the sinterability,conductivity and stability.To achieve dense electrolyte with high conductivity and long-term stability at the low sintering temperature,one of the most common approach is adding sintering aids in the fabrication processing of proton-conducting oxides.In recent researches,the effect of sintering additives on the electrical conductivity of proton conductors are still in the arguments.This review provide d a comprehensive discussion of recent research developments on sintering additives modified proton conducting oxide.Moreover,w e summarized in detail the influences of different sintering additives on the relative density,grain growth,sintering behavior,and bulk and boundary conductivity of proton conducting oxides,as well as pointing out the potential research directions.
作者
刘志军
陶有堃
王建新
邵静
Liu Zhijun;Tao Youkun;Wang Jianxin;Shao Jing(Shenzhen University,Shenzhen 518060,China;Harbin Institute of Technology,Shenzhen 518055,China;Ningbo Institute of Material Technology&Engineering,Chinese Academy of Sciences,Ningbo 315201,China)
出处
《稀有金属材料与工程》
SCIE
EI
CAS
CSCD
北大核心
2022年第6期2288-2301,共14页
Rare Metal Materials and Engineering
基金
国家自然科学基金(52072247)
宁波市科技创新2025重大专项(2018B100489)
深圳市基础研究项目(JCYJ20170817110358231)
中国博士后科学基金(2021M692209)。
关键词
固体氧化物电池
质子导体
烧结助剂
烧结性能
电导率
SOCs
proton conductor
sintering aid
sintered properties
electrical conductivity