Ying Zeng scite author profile

Molecular ferroelectrics are becoming an important area of research due to their ability to form a variety of structures exhibiting the desired properties. However, the precise control over the assembly of molecular building blocks for the design and synthesis of photoresponsive molecular ferroelectrics remains a considerable challenge. Here, we report a new hybrid high-temperature ferroelectric, (Me 2 NH 2 )-[NaFe(CN) 5 (NO)], by judiciously assembling inorganic photochromic nitroprusside anion, as the framework building block, and polar organic cation Me 2 NH 2 + , as the dipole-moment carrier, into the crystal lattice. Ferroelectricity arises through the synergetic ordering of Me 2 NH 2 + below 408 K. Piezoresponse force microscopy witnessed the presence of 180°ferroelectric domains and evidenced polarization switching by repeatedly applying an external electric field. Irradiation of the N-bound nitrosyl ligand (ground state) leads to two different conformations: isonitrosyl Obound (metastable state I) and side-on nitrosyl conformation (metastable state II). Such photoisomerization realized in solid-state molecular ferroelectrics allows for the photoswitching between the ferroelectric ground state and the metastable state. These results pave the way for new design approaches toward developing next-generation photostimulated ferroelectric materials at the molecular level.

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Molecular Dynamics, Phase Transition and Frequency‐Tuned Dielectric Switch of an Ionic Co‐Crystal

Liu

Zhang

Zeng

et al. 2018

Angew Chem Int Ed

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Dielectric switches that can be converted between high and low dielectric states by thermal stimuli have attracted much interest owing to their many potential applications. Currently one main drawback for practical application lies in the non-tunability of their switch temperatures (T ). We report here an ionic co-crystal (Me NH) [Ni(NCS) ] that contains a multiply rotatable Me NH ion and a solely rotatable one due to a more spacious supramolecular cage for the former one. This compound undergoes an isostructural order-disorder phase transition and it can function as a frequency-tuned dielectric switch with highly adjustable T , which is further revealed by the variable-temperature structure analyses and molecular dynamics simulations. In addition, the distinct arrangements and molecular dynamics of two coexisting Me NH ions confined in different lattice spaces as well as the notable offset effect on the promoting/hindering of dipolar reorientation after dielectric transition provide a rarely observed but fairly good model for understanding and modulating the dipole motion in crystalline environment.

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Crystalline Supramolecular Gyroscope with a Water Molecule as an Ultrasmall Polar Rotator Modulated by Charge-Assisted Hydrogen Bonds

Zeng

et al. 2017

J. Am. Chem. Soc.

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A new strategy for the construction of crystalline molecular rotors is presented. The combination of a conformation-modifiable macrocyclic host and two cooperative guests affords one supramolecular gyroscope-like compound, (t-BuNH)(18-crown-6)[ZnCl(HO)], in which the coordinated water molecule functions as an ultrasmall polar rotator, revealed by its significant dielectric relaxation and the molecular dynamics simulations. In addition, such a compound can reversibly undergo a polar-to-polar phase transition triggered by the changed conformation of the 18-crown-6 host, leading to a switchable on/off rotation of water molecule, well controlled by strength and direction of charge-assisted hydrogen bonds.

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Molecule-based nonlinear optical switch with highly tunable on-off temperature using a dual solid solution approach

et al. 2020

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Nonlinear optical switches that reversibly convert between on/off states by thermal stimuli are promising for applications in the fields of photoelectronics and photonics. Currently one main drawback for practical application lies in the control of their switch temperature, especially for the temperature range near room temperature. By mixed melting treatment, here we describe an alloy-like nonlinear optical switch with tunable switch temperature via a dual solid solution approach within the coordination polymer system. We initially prepare a coordination polymer (i-PrNHMe2)[Cd(SCN)3], which functions as a high-contrast thermoresponsive nonlinear optical switch originating from a phase transition at around 328 K. Furthermore, by taking advantage of a synergistic dual solid solution effect, the melt mixing of it with its analogue (MeNHEt2)[Cd(SCN)3], which features an unequal anionic chain templated by an isomeric ammonium, can afford coordination polymer solid solutions with switch temperatures that are tunable in a range of 273–328 K merely by varying the component ratio.

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A new ferroelastic hybrid material with a large spontaneous strain: (Me₃NOH)₂[ZnCl₄]

et al. 2019

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Ying Zeng

Photoresponsive Organic–Inorganic Hybrid Ferroelectric Designed at the Molecular Level

Molecular Dynamics, Phase Transition and Frequency‐Tuned Dielectric Switch of an Ionic Co‐Crystal

Crystalline Supramolecular Gyroscope with a Water Molecule as an Ultrasmall Polar Rotator Modulated by Charge-Assisted Hydrogen Bonds

Molecule-based nonlinear optical switch with highly tunable on-off temperature using a dual solid solution approach

A new ferroelastic hybrid material with a large spontaneous strain: (Me₃NOH)₂[ZnCl₄]

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Ying Zeng

Photoresponsive Organic–Inorganic Hybrid Ferroelectric Designed at the Molecular Level

Molecular Dynamics, Phase Transition and Frequency‐Tuned Dielectric Switch of an Ionic Co‐Crystal

Crystalline Supramolecular Gyroscope with a Water Molecule as an Ultrasmall Polar Rotator Modulated by Charge-Assisted Hydrogen Bonds

Molecule-based nonlinear optical switch with highly tunable on-off temperature using a dual solid solution approach

A new ferroelastic hybrid material with a large spontaneous strain: (Me3NOH)2[ZnCl4]

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Product

Resources

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A new ferroelastic hybrid material with a large spontaneous strain: (Me₃NOH)₂[ZnCl₄]