摘要
按照0.71Pb(Mg1/3Nb2/3)O3-0.26Pb Ti O3-0.03Pb(Er1/2Nb1/2)O3化学式所示组分比例,采用分步高温固相反应合成出Er3+掺杂PMNT多晶,通过熔体坩埚下降法生长出尺寸φ25 mm×100 mm的Er3+掺杂PMNT晶体,Er3+离子以三元固溶体组元方式被掺杂进入钙钛矿相铁电体晶格;测试了Er3+掺杂PMNT晶片的介电、压电与铁电性能以及上转换发光性能。结果表明,Er3+掺杂PMNT晶体呈现跟三方相纯PMNT晶体相近的介电、压电与铁电性能;在980 nm激发光作用下,该掺杂晶体呈现出Er3+离子特有的较强上转换荧光发射,并且极化后掺杂晶体的上转换发光强度得到增强。
According to the molar ratio of 0.71Pb(Mg1/3Nb2/3)O3-0.26Pb Ti O3-0.03Pb(Er1/2Nb1/2)O3, Er3+-doped PMNT polycrystalline material was prepared by two-step solid-state synthesis at elevated temperature. Er3+-doped PMNT re- laxor-based ferroelectric crystal with size of φ25 mm × 100 mm was grown from the stoichiometric melts by vertical Bridgman method. In the ferroelectric crystal with perovskite structure, Er3+ ions were doped into the crystal lattice via one composition of the ternary solid solution compound. The dielectric, piezoelectric and ferroelectric properties and up-conversion emission performance of Er3+-doped PMNT crystal wafers were investigated systematically. It is verified that Er3+-doped PMNT crystal presents the similar electrical properties to those of undoped PMNT crystal. Under the ex- citation of 980 nm, the crystal also exhibits a strong up-conversion fluorescence emission characteristic to Er3+ ions doped in the medium, and the emission intensity will be enhanced after being poled.
出处
《无机材料学报》
SCIE
EI
CAS
CSCD
北大核心
2015年第2期135-140,共6页
Journal of Inorganic Materials
基金
浙江省重大科技计划优先主题(2009C11144)
国家自然科学基金(61378068)
宁波大学王宽城幸福基金
浙江省压电频率电子元器件技术与应用创新团队(2009R50025)
宁波市光电功能材料及器件创新团队(2009B21007)~~
