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Halogen Engineering To Realize Regulable Multipolar Axes, Nonlinear Optical Response, and Piezoelectricity in Plastic Ferroelectrics

Jiahe Lin, Jia-Rui Lou, Lou‐Kai Ye, Bo-Lan Hu, Peng-Cheng Zhuge, Da‐Wei Fu, Chang‐Yuan Su, Yi Zhang

2023Inorganic Chemistry19 citationsDOI

Abstract

Compared with uniaxial molecular ferroelectrics, multiaxial ferroelectrics have better application prospects because they are no longer subject to the single-crystal form and have been pursued in recent years. Halogen engineering refers to the adjustment of halogens in materials at the atomic level, which can not only explore multiaxial ferroelectrics but also help to improve piezoelectrics, recently. In this work, we successfully synthesized and characterized three multiaxial plastic ferroelectrics through the precise molecular design from I to Cl, confirming the increase of the number of polar axes of ferroelectrics from 3 to 6, the increase of second-harmonic generation density from 2.1 times to nearly 6 times of monopotassium phosphate, and the increase of piezoelectric coefficient by 140%. This systematic work has proved that halogen engineering can not only enrich the family of multiaxial plastic ferroelectrics but also promote the further development of nonlinear optical and piezoelectric materials.

Topics & Concepts

PiezoelectricityHalogenWork (physics)Nonlinear opticalChemistryPolarCrystal engineeringNonlinear systemSecond-harmonic generationHarmonicCondensed matter physicsEngineering physicsCrystallographyCrystal structureMaterials scienceComposite materialOpticsThermodynamicsOrganic chemistryPhysicsAcousticsQuantum mechanicsSupramolecular chemistryAlkylLaserPerovskite Materials and ApplicationsFerroelectric and Piezoelectric MaterialsCrystal Structures and Properties
Halogen Engineering To Realize Regulable Multipolar Axes, Nonlinear Optical Response, and Piezoelectricity in Plastic Ferroelectrics | Litcius