Dielectric/SHG/PL triple-channel properties in chiral spirocyclic organic–inorganic hybrids

Fan, Xiaozhe; Lun, Meng‐Meng; Wang, Zhijie; Deng, Ben; Fu, Da‐Wei; Wang, Changfeng; Lu, Haifeng; Zhang, Zhi‐Xu

doi:10.1039/d3tc01864d

Cited by 3 publications

(1 citation statement)

References 54 publications

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“…Moreover, organic–inorganic hybrid halide counterparts have captured equal attention due to their versatility, solution-processability, and structural tunability. − These compounds have showcased an outstanding performance in various areas such as dielectric, ferroelectric, piezoelectric, photoluminescent, thermochromic, and nonlinear optics. − Importantly, the properties of phase transition materials are closely tied to their molecular structure. Modulating the molecular structure of these materials stands out as one of the most pivotal methods to attain specific properties. − Even minor adjustments in the crystal structure can result in substantial transformations in their properties. By doing so, it becomes possible to achieve superior properties, including higher phase transition temperatures, narrower band gaps, and excellent optical properties.…”

Section: Introductionmentioning

confidence: 99%

Reversible Phase Transition and Dielectric Response of Hybrid Lead-Free Antimony-Based Crystals

Wang,

Ni,

Luo

et al. 2024

Crystal Growth & Design

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Organic–inorganic hybrid phase transition materials have garnered significant attention due to their adjustable structures, solution-processability, and outstanding properties. Among these materials, antimony (Sb)-based hybrids have notably been synthesized extensively, attributed to their reversible phase transitions, narrow band gaps, and ferroelectric characteristics. In this study, two Sb-based phase transition materials, (CPEA)3SbBr6 (CPEA-Br) and (FPEA)2SbBr5 (FPEA-Br) (where CPEA = 2-(2-chlorophenyl)ethylamine and FPEA = 4-fluorophenethylamine), were synthesized by modifying the organic cations. These materials exhibit a satisfactory dielectric stability and narrow band gaps, as well as higher phase transition temperatures compared to most reported homologues. Reversible dielectric states and semiconductor properties have been demonstrated, highlighting their potential for applications in photoelectric detection and temperature sensors.

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Section: Introductionmentioning

confidence: 99%

Reversible Phase Transition and Dielectric Response of Hybrid Lead-Free Antimony-Based Crystals

Wang,

Ni,

Luo

et al. 2024

Crystal Growth & Design

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A Metal‐Free Molecular Ferroelectric [4‐Me‐cyclohexylamine]ClO₄ Introduced by Boat and Chair Conformations of Cyclohexylamine

Zhang,

Guo,

et al. 2023

Chemistry A European J

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Organic ferroelectrics have received a great deal of interest due to their exclusive properties. However, organic ferroelectrics have not been fully explored, which hinders their practical application. Here, we presented a novel metal‐free organic molecular ferroelectric [4‐MCHA][ClO4] (1) (4‐MCHA = trans‐4‐methylcyclohexylamine), which exhibits an above‐room‐temperature of 328 K. Strikingly, the crystal structure analysis of 1 shows that the driving force of phase transition is related to the interesting chair‐boat conformation change of 4‐MCHA cation, in addition to the order‐disorder transition. Using piezoelectric response force microscopy (PFM), the presence of domains and the implemented polarization switching was clearly observed, which explicitly determined the presence of room‐temperature ferroelectricity of 1. As far as we know, the ferroelectric phase transition mechanism attributed to the conformational change in a trans isomeric cation is very rare. This research enriched the path of designing ferroelectric materials and smart materials.

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Alkyl modification to optimize the ferroelastic properties of molecular crystals

Li,

Zhu,

Zhang

et al. 2024

J. Mater. Chem. C

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Dielectric/SHG/PL triple-channel properties in chiral spirocyclic organic–inorganic hybrids

Abstract: Chiral organic-inorganic hybrid materials with multi-channel switchable characteristics play an important role in the fields of sensors, intelligent switches, and information memorizers. The introduction of chiral organic amine into materials...

Cited by 3 publications

References 54 publications

Reversible Phase Transition and Dielectric Response of Hybrid Lead-Free Antimony-Based Crystals

Reversible Phase Transition and Dielectric Response of Hybrid Lead-Free Antimony-Based Crystals

A Metal‐Free Molecular Ferroelectric [4‐Me‐cyclohexylamine]ClO₄ Introduced by Boat and Chair Conformations of Cyclohexylamine

Alkyl modification to optimize the ferroelastic properties of molecular crystals

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Dielectric/SHG/PL triple-channel properties in chiral spirocyclic organic–inorganic hybrids

Abstract: Chiral organic-inorganic hybrid materials with multi-channel switchable characteristics play an important role in the fields of sensors, intelligent switches, and information memorizers. The introduction of chiral organic amine into materials...

Cited by 3 publications

References 54 publications

Reversible Phase Transition and Dielectric Response of Hybrid Lead-Free Antimony-Based Crystals

Reversible Phase Transition and Dielectric Response of Hybrid Lead-Free Antimony-Based Crystals

A Metal‐Free Molecular Ferroelectric [4‐Me‐cyclohexylamine]ClO4 Introduced by Boat and Chair Conformations of Cyclohexylamine

Alkyl modification to optimize the ferroelastic properties of molecular crystals

Contact Info

Product

Resources

About

A Metal‐Free Molecular Ferroelectric [4‐Me‐cyclohexylamine]ClO₄ Introduced by Boat and Chair Conformations of Cyclohexylamine