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Molecular orbital breaking in photo-mediated organosilicon Schiff base ferroelectric crystals

Zhuxiao Gu, Nan Zhang, Yao Zhang, Bin Liu, Huan‐Huan Jiang, Huaming Xu, Peng Wang, Qing Jiang, Ren‐Gen Xiong, Han‐Yue Zhang

2024Nature Communications19 citationsDOIOpen Access PDF

Abstract

Ferroelectric materials, whose electrical polarization can be switched under external stimuli, have been widely used in sensors, data storage, and energy conversion. Molecular orbital breaking can result in switchable structural and physical bistability in ferroelectric materials as traditional spatial symmetry breaking does. Differently, molecular orbital breaking interprets the phase transition mechanism from the perspective of electronics and sheds new light on manipulating the physical properties of ferroelectrics. Here, we synthesize a pair of organosilicon Schiff base ferroelectric crystals, (R)- and (S)-N-(3,5-di-tert-butylbenzylidene)-1-((triphenylsilyl)oxy)ethanamine, which show optically controlled phase transition accompanying the molecular orbital breaking. The molecular orbital breaking is manifested as the breaking and reformation of covalent bonds during the phase transition process, that is, the conversion between C = N and C-O in the enol form and C-N and C = O in the keto form. This process brings about photo-mediated bistability with multiple physical channels such as dielectric, second-harmonic generation, and ferroelectric polarization. This work further explores this newly developed mechanism of ferroelectric phase transition and highlights the significance of photo-mediated ferroelectric materials for photo-controlled smart devices and bio-sensors.

Topics & Concepts

FerroelectricityMaterials scienceOrganosiliconSymmetry breakingPhase transitionChemical physicsDielectricPolarization (electrochemistry)Molecular orbitalNanotechnologyCondensed matter physicsOptoelectronicsChemistryMoleculePolymer chemistryPhysicsPhysical chemistryOrganic chemistryQuantum mechanicsSilicone and Siloxane ChemistryLiquid Crystal Research AdvancementsSynthesis and properties of polymers
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