Crystal Sponge Behavior in a Two-Dimensional Rare-Earth Hybrid Coordinate Polymer

Xu, Ze-Jiang; Wang, Na; Luo, Wang; Li, Hua-Kai; Feng, Yan; Shi, Chao; Ye, Heng-Yun; Miao, Le-Ping

doi:10.1021/acs.inorgchem.3c01884

Cited by 7 publications

(2 citation statements)

References 35 publications

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“…Organic–inorganic hybrid perovskite (OIHPs) materials have wide potential applications in intelligent device fields such as information storage, shape memory, actuators, and X-ray radiation detection, etc. − On account of they behave the features of an easy synthesis process, tunable structure, and excellent performance. − To date, OIHPs have become a good platform to develop a large family of functional materials, such as ferroelectrics, piezoelectrics, ferroelastics, and photoelectric detectors, etc. − Similar to ferroelectricity and ferromagnetism, the nonlinear force hysteresis loop characteristic of the inherent spontaneous strain by mechanical force is defined as ferroelasticity. , The response of spontaneous strain orientation to force, light, and thermal stimuli provides potential applications of ferroelastics in mechanical switches, optical domain wall memories, pressure sensors, etc. − Notably, recent studies have shown that the ferroelastic domain walls of OIHPs contributing to microscopic carrier transport. ,, Therefore, the introduction of ferroelasticity into semiconductor materials may help to enhance the photoelectric detection property. However, 2D OIHPs ferroelastic crystals with an X-ray radiation current response have hardly been reported.…”

Section: Introductionmentioning

confidence: 99%

Halogen-Regulated T_c and X-ray Radiation Detection in 2D Hybrid Perovskite Ferroelastic Semiconductor

Luo,

Wu,

Shen

et al. 2024

Inorg. Chem.

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Organic−inorganic hybrid perovskites (OIHPs) have received particular attention due to their characteristic structural tunability and flexibility. These features make OIHPs behave with excellent modifications on macroscopic properties, such as ferroicity or semiconductor performances, etc. Herein, we report two 2D hybrid stibium-based halide perovskite (C 3 H 7 N) 3 Sb 2 X 9 (X = Br, 1; Cl, 2) ferroelastic semiconductor possessing dual switching properties of dielectric and second harmonic generation (SHG). Notably, these two hybrids exhibit halogen-regulated ferroelasticity and semiconductor properties. There is a significant difference in Curie temperature (T c ) and Xray radiation detection sensitivity (S), i.e., the ΔT c and ΔS are 38 K and 87 μC Gy air −1 cm −2 , respectively. Meanwhile, crystals 1 and 2 do not show dark current drift in cyclic measurements of different radiation doses with stable switching ratios of 30 and 10, separately. Meanwhile, these results were proven by scientific experimental results and density functional theory (DFT) calculations. Our work presents a facile and practical method to regulate macroproperties on the molecular level, providing a new vision to develop hybrid perovskite ferroic-photoelectric materials.

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Section: Introductionmentioning

confidence: 99%

Halogen-Regulated T_c and X-ray Radiation Detection in 2D Hybrid Perovskite Ferroelastic Semiconductor

Luo,

Wu,

Shen

et al. 2024

Inorg. Chem.

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“…Organic–inorganic hybrid materials (OIHMs) have attracted broad attention to exploring multiferroic materials due to their easy structural diversity and tunability, mild preparation conditions, and easy film-forming. − In particular, the inherent characteristic of OIHMs is the targeted design and performance optimization at the molecular level . As is well known, molecular ferroelectrics require a polar structure and symmetry breaking.…”

Section: Introductionmentioning

confidence: 99%

Multiaxial Multiferroicity with Large Spontaneous Polarization in a Hydroxyl-Modified Quinuclidinium Gallium(III) Chloride

Xu,

Luo,

et al. 2024

Chem. Mater.

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Organic−inorganic hybrid materials (OIHMs) have become a powerful platform for exploring ferroic materials due to the advantages of directional design on the molecular level. Here, based on a hybrid uniaxial ferroelectric (Quinuclidinium)GaCl 4 (QGC), a chiral hybrid (R-3-hydroxylquinuclidinium)GaCl 4 (R3HQGC) was successfully synthesized through a molecular strategy of H/OH substitution. R3HQGC exhibits a much higher Curie temperature (318 K) than QGC (284 K) because hydroxyl modification enhances intermolecular interactions, increasing the movement energy barrier. Meanwhile, R3HQGC shows multiaxiality and multiferroicity (the coexistence of ferroelectricity and ferroelasticity). Notably, R3HQGC has a large spontaneous polarization (19.4 μC•cm −2 ) exceeding those of most multiferroics and multiaxial ferroelectrics. Our study presents an effective approach to promote ferroelectric properties and gives deep insight into exploring high-performance hybrid multiferroic materials.

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Supramolecular Rotor Assembly for the Design of a Hybrid Ferroelectric‐Antiferromagnetic Multiferroic Semiconductor

Wang,

Li,

Shen

et al. 2024

Angewandte Chemie

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Ferroelectric (FE)‐antiferromagnetic (AFM) multiferroic materials have sparked growing interest due to their huge possibilities in energy‐saving, photoelectric devices, nonvolatile storage, and switches. However, realizing FE‐AFM properties in a hybrid molecular material is difficult because ferroelectric and magnetic orders are commonly mutually exclusive. Here, we report an FE‐AFM multiferroic semiconductor [NH4(18‐crown‐6)]2[Mn(SCN)4] (NCMS) by supramolecular assembly approach via molecular rotor synthon [NH4(18‐crown‐6)] and inorganic magnetic module [Mn(SCN)4]. Interestingly, NCMS shows good ferroelectricity with a spontaneous polarization (Ps) of 5.94 μC cm−2 higher than most crown‐ether‐based ferroelectrics. Especially, the realization of antiferromagnetism is for the first time in the crown ether hybrid perovskite ferroic systems. Additionally, semiconductor NCMS displays an X‐ray radiation detection response with a large photo/dark current on‐off ratio (197). Our study not only gives a deep insight into understanding multiferroic properties but also provides a novel and efficient approach to realizing high‐performance hybrid multiferroic materials.

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Crystal Sponge Behavior in a Two-Dimensional Rare-Earth Hybrid Coordinate Polymer

Cited by 7 publications

References 35 publications

Halogen-Regulated T_c and X-ray Radiation Detection in 2D Hybrid Perovskite Ferroelastic Semiconductor

Halogen-Regulated T_c and X-ray Radiation Detection in 2D Hybrid Perovskite Ferroelastic Semiconductor

Multiaxial Multiferroicity with Large Spontaneous Polarization in a Hydroxyl-Modified Quinuclidinium Gallium(III) Chloride

Supramolecular Rotor Assembly for the Design of a Hybrid Ferroelectric‐Antiferromagnetic Multiferroic Semiconductor

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Crystal Sponge Behavior in a Two-Dimensional Rare-Earth Hybrid Coordinate Polymer

Cited by 7 publications

References 35 publications

Halogen-Regulated Tc and X-ray Radiation Detection in 2D Hybrid Perovskite Ferroelastic Semiconductor

Halogen-Regulated Tc and X-ray Radiation Detection in 2D Hybrid Perovskite Ferroelastic Semiconductor

Multiaxial Multiferroicity with Large Spontaneous Polarization in a Hydroxyl-Modified Quinuclidinium Gallium(III) Chloride

Supramolecular Rotor Assembly for the Design of a Hybrid Ferroelectric‐Antiferromagnetic Multiferroic Semiconductor

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Product

Resources

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Halogen-Regulated T_c and X-ray Radiation Detection in 2D Hybrid Perovskite Ferroelastic Semiconductor

Halogen-Regulated T_c and X-ray Radiation Detection in 2D Hybrid Perovskite Ferroelastic Semiconductor