Li-Jun Han scite author profile

Observation of Transition from Ferroelasticity to Ferroelectricity by Solvent Selective Effect in Anilinium Bromide

Fu

¹

,

Gao

²

,

Huang

³

et al. 2021

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Organic ferroelectrics are highly desirable for their light weight, mechanical flexibility and biocompatibility. However,t he rational design of organic ferroelectrics has always faced great challenges.A nilinium bromide (AB) has two structures reported in the Cambridge Crystallographic Data Centre,w hich might be an mmmF2/m type ferroelastic (AB-1). When we studied its ferroelasticity,wewere surprised to discover that there was another crystal (AB-2) in H 2 O besides this one,a nd they were very difficult to separate.B y changing the solvent, we found that AB-1 crystals could be formed in ethanol, where ferroelastic domains were visualized by polarized light microscopy, and AB-2 crystals could be obtained from various crystallization solvents of methanol, isopropanol, N-butanol, acetonitrile,d imethyl sulfoxide,a nd N,N-dimethylformamide,w hich undergo af erroelectric phase transition with mm2Fm, showing clear ferroelectricity in two phases.T oo ur knowledge,t he regulation of ferroelasticity to ferroelectricity by solvent selective effect is unprecedented in the field of ferroelectrics.This work reveals the important role of solvent effect in organic ferroelectrics.

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Metal ion induced dual switchable dielectric and luminescent properties in hybrid halides

Liu

¹

,

Han

²

,

Shao

³

et al. 2022

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A Cd-based perovskite with optical-electrical multifunctional response

Han

¹

,

Liu

²

,

Shao

³

et al. 2022

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show abstract

Observation of Transition from Ferroelasticity to Ferroelectricity by Solvent Selective Effect in Anilinium Bromide

Fu

¹

,

Gao

²

,

Huang

³

et al. 2021

View full text Add to dashboard Cite

Organic ferroelectrics are highly desirable for their light weight, mechanical flexibility and biocompatibility. However,t he rational design of organic ferroelectrics has always faced great challenges.A nilinium bromide (AB) has two structures reported in the Cambridge Crystallographic Data Centre,w hich might be an mmmF2/m type ferroelastic (AB-1). When we studied its ferroelasticity,wewere surprised to discover that there was another crystal (AB-2) in H 2 O besides this one,a nd they were very difficult to separate.B y changing the solvent, we found that AB-1 crystals could be formed in ethanol, where ferroelastic domains were visualized by polarized light microscopy, and AB-2 crystals could be obtained from various crystallization solvents of methanol, isopropanol, N-butanol, acetonitrile,d imethyl sulfoxide,a nd N,N-dimethylformamide,w hich undergo af erroelectric phase transition with mm2Fm, showing clear ferroelectricity in two phases.T oo ur knowledge,t he regulation of ferroelasticity to ferroelectricity by solvent selective effect is unprecedented in the field of ferroelectrics.This work reveals the important role of solvent effect in organic ferroelectrics.

show abstract

Li-Jun Han

Observation of Transition from Ferroelasticity to Ferroelectricity by Solvent Selective Effect in Anilinium Bromide

Metal ion induced dual switchable dielectric and luminescent properties in hybrid halides

A Cd-based perovskite with optical-electrical multifunctional response

Observation of Transition from Ferroelasticity to Ferroelectricity by Solvent Selective Effect in Anilinium Bromide

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