铁电性
热电性
压电
微晶
塑料晶体
功勋
极化(电化学)
光电子学
化学
陶瓷
电压
材料科学
纳米技术
电介质
结晶学
复合材料
电气工程
有机化学
物理化学
工程类
相(物质)
作者
Jun Harada,Yuto Kawamura,Yukihiro Takahashi,Yohei Uemura,Tatsuo Hasegawa,Hiroki Taniguchi,Kazuyasu Maruyama
摘要
Molecular ferroelectric crystals have attracted growing interest as potential alternatives to conventional lead-based ceramic ferroelectrics. We have recently discovered that a class of compounds known as plastic crystals can show multiaxial ferroelectricity, which allows ferroelectric performance even in polycrystalline forms. Here, we report new plastic/ferroelectric ionic molecular crystals that exhibit remarkably small coercive electric fields at room temperature. The easily switchable ferroelectric polarization enables low-voltage switching operations and high-frequency performance. Such ferroelectric crystals can be readily processed into bulk polycrystalline forms with desired shapes that are characterized by unprecedentedly high pyroelectric figures of merit and large piezoelectricity. These multifunctional molecular crystals represent highly attractive prospects for device elements with a diverse range of applications, which will significantly boost the development of molecular ferroelectric crystals.
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