材料科学
铁电性
多铁性
居里温度
陶瓷
电介质
三角晶系
矫顽力
剩磁
内容(测量理论)
凝聚态物理
矿物学
分析化学(期刊)
复合材料
磁化
晶体结构
结晶学
铁磁性
磁场
光电子学
化学
数学分析
数学
色谱法
量子力学
物理
作者
Juan Liu,Yu Sun,Lilin Xiang,Tulai Sun,Zilong Yu,Bing Cui,Chuangui Jin
摘要
Abstract In the present study, SrTiO 3 was selected to enhance the multiferroic characteristics of Bi 0.88 Sm 0.12 FeO 3 (BSF) ceramics. With increasing SrTiO 3 content, the principal phase of BSF ceramic transitions from rhombohedral R3c to Pna2 1 . Through DSC and dielectric analysis, it was observed that both the Curie temperature and Néel temperature decreased proportionally with the augmentation of SrTiO 3 content. When x = .1, the optimal ferroelectric performance is achieved, and the highest remanent polarization value is 55.47 µC/cm 2 , significantly surpassing that of BSF ceramics. Moreover, the PFM test results showed that as the substitution content increased, the domains in the BSF ceramic gradually transformed from normal ferroelectric domains to polar nanomicro‐domains. Magnetic and magnetoelectric results show that when x = .1, the best magnetic properties are obtained, M r = 59.7 emu/mol. The magnetoelectric coefficient α ME initially increased and then decreased with the increasing SrTiO 3 content, reaching its optimum magnetoelectric properties at x = .1, where α ME = .47 mV cm –1 Oe –1 . In summary, when the substitution amount of SrTiO 3 reaches 10%, the ferroelectric, magnetic, and magnetoelectric properties of BSF ceramics are significantly improved.
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