Litcius/Paper detail

Giant photostriction of CaCu3Ti4O12 ceramics under visible light illumination

Li Xiu, Chen Chen, Faqiang Zhang, Xintang Huang, Zhiguo Yi

2020Applied Physics Letters28 citationsDOI

Abstract

Ferroelectrics with a perovskite structure, exhibiting strong coupling between photons, carriers, and phonons, have been demonstrated to show a strong photostrictive response. Limited by the optical bandgap, most of the reported ferroelectric perovskites respond only to UV light or weakly respond to visible light below 550 nm. Herein, the photostrictive performance of CaCu3Ti4O12 (CCTO) ceramics, with a low bandgap of ∼1.5 eV (ideal for solar spectrum absorption), is comprehensively investigated. Although the compound presents no ferroelectricity, in general, a giant photostriction of ∼10−3 with a large photostrictive efficiency of ∼10−11 m3/W in CCTO ceramics is observed by applying purple (405 nm), green (520 nm), and red (655 nm) laser illumination. Evidenced by the XRD peak shifts under external laser illumination and the phonon mode shifts via the power-dependent Raman spectrum, the light-induced non-thermal deformation in CCTO is attributed to the enhanced stretching of O–Ti–O chains and the distortions of TiO6 octahedrons. The excellent and uniform photostrictive performance of CCTO ceramics in the visible-light region makes them potential candidates for practical applications in next-generation photo-driven electromechanical devices.

Topics & Concepts

Materials scienceVisible spectrumCeramicOptoelectronicsFerroelectricityBand gapRaman spectroscopyPerovskite (structure)Ferroelectric ceramicsPhononLaserAbsorption (acoustics)OpticsComposite materialCondensed matter physicsCrystallographyDielectricChemistryPhysicsDielectric properties of ceramicsFerroelectric and Piezoelectric MaterialsConducting polymers and applications