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Record Enhancement of Curie Temperature in Host–Guest Inclusion Ferroelectrics

Xian‐Jiang Song, Tie Zhang, Zhuxiao Gu, Zhi‐Xu Zhang, Da‐Wei Fu, Xiao‐Gang Chen, Han‐Yue Zhang, Ren‐Gen Xiong

2021Journal of the American Chemical Society101 citationsDOI

Abstract

Solid-state molecular rotor-type materials such as host–guest inclusion compounds are very desirable for the construction of molecular ferroelectrics. However, they usually have a low Curie temperature (Tc) and uniaxial nature, severely hindering their practical applications. Herein, by regulating the anion to control “momentum matching” in the crystal structure, we successfully designed a high-temperature multiaxial host–guest inclusion ferroelectric [(MeO–C6H4–NH3)(18-crown-6)][TFSA] (MeO–C6H4–NH3 = 4-methoxyanilinium, TFSA = bis(trifluoromethanesulfonyl)ammonium) with the Aizu notation of mmmFm. Compared to the parent uniaxial ferroelectric [(MeO–C6H4–NH3)(18-crown-6)][BF4] with a Tc of 127 K, the introduction of larger TFSA anions brings a lower crystal symmetry at room temperature and a higher energy barrier of molecular motions in phase transition, giving [(MeO–C6H4–NH3)(18-crown-6)][TFSA] multiaxial ferroelectricity and a high Tc up to 415 K (above that of BaTiO3). To our knowledge, such a record temperature enhancement of 288 K makes its Tc the highest among the reported crown-ether-based ferroelectrics, giving a wide working temperature range for applications in data storage, temperature sensing, actuation, and so on. This work will provide guidance and inspiration for designing high-Tc host–guest inclusion ferroelectrics.

Topics & Concepts

ChemistryCurie temperatureHost (biology)CurieInclusion (mineral)Marie curieCondensed matter physicsNanotechnologyMineralogyFerromagnetismPhysicsBusinessMaterials scienceEuropean unionEcologyEconomic policyBiologyFerroelectric and Piezoelectric MaterialsAcoustic Wave Resonator TechnologiesElectronic and Structural Properties of Oxides
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