Yu-Xia Wang scite author profile

Materials that possess coupled magnetic and electric properties are of significant interest because of their potential use in next-generation magnetoelectric devices such as digital information storage. To date, the magnetoelectric materials that have been studied in-depth have been limited mainly to inorganic oxides such as perovskite oxides. Molecular materials are a promising alternative because their magnetic and electric elements can be combined together at the molecular level via relatively simple molecular designs. Here, we report the coupling of magnetic and electric properties through a magnetodielectric (MD) effect in a single-crystal sample, which is constructed from dysprosium(III) single-molecule magnets (SMMs). The MD effect originates from intrinsic spin-lattice coupling of the dysprosium(III) ion within the sample. This is the first observation of the MD effect in a SMM-based material, which could pave the way toward the synthesis of advanced materials that combine distinct magnetic and electric properties using molecular chemistry for use in molecular devices with nanoscale size.

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Magnetic-Field Tuning of Hydrogen Bond Order-Disorder Transition in Metal-Organic Frameworks

Wang

Cong

et al. 2019

Phys. Rev. Lett.

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Two C_2v symmetry dysprosium(iii) single-molecule magnets with effective energy barriers over 600 K

Meng

Wang

Gou

et al. 2021

Inorg. Chem. Front.

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Solvent-induced formation of two gadolinium clusters demonstrating strong magnetocaloric effects and ferroelectric properties

Wang

Ren

et al. 2019

Dalton Trans.

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Yu-Xia Wang

A single-molecule magnet assembly exhibiting a dielectric transition at 470 K

Observation of Magnetodielectric Effect in a Dysprosium-Based Single-Molecule Magnet

Magnetic-Field Tuning of Hydrogen Bond Order-Disorder Transition in Metal-Organic Frameworks

Two C_2v symmetry dysprosium(iii) single-molecule magnets with effective energy barriers over 600 K

Solvent-induced formation of two gadolinium clusters demonstrating strong magnetocaloric effects and ferroelectric properties

Contact Info

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Resources

About

Yu-Xia Wang

A single-molecule magnet assembly exhibiting a dielectric transition at 470 K

Observation of Magnetodielectric Effect in a Dysprosium-Based Single-Molecule Magnet

Magnetic-Field Tuning of Hydrogen Bond Order-Disorder Transition in Metal-Organic Frameworks

Two C2v symmetry dysprosium(iii) single-molecule magnets with effective energy barriers over 600 K

Solvent-induced formation of two gadolinium clusters demonstrating strong magnetocaloric effects and ferroelectric properties

Contact Info

Product

Resources

About

Two C_2v symmetry dysprosium(iii) single-molecule magnets with effective energy barriers over 600 K