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Tunable Hypersonic Bandgap Formation in Anisotropic Crystals of Dumbbell Nanoparticles

Hojin Kim, Abdellatif Gueddida, Zuyuan Wang, Bahram Djafari‐Rouhani, George Fytas, Eric M. Furst

2023ACS Nano14 citationsDOIOpen Access PDF

Abstract

Phononic materials exhibit mechanical properties that alter the propagation of acoustic waves and are widely useful for metamaterials. To fabricate acoustic materials with phononic bandgaps, colloidal nanoparticles and their assemblies allow access to various crystallinities in the submicrometer scale. We fabricated anisotropic crystals with dumbbell-shaped nanoparticles via field-directed self-assembly. Brillouin light spectroscopy detected the formation of direction-dependent hypersonic phononic bandgaps that scale with the lattice parameters. In addition, the local resonances of the constituent nanoparticles enable metamaterial behavior by opening hybridization gaps in disordered structures. Unexpectedly, this bandgap frequency is robust to changes in the dumbbell aspect ratio. Overall, this study provides a structure-property relationship for designing anisotropic phononic materials with targeted phononic bandgaps.

Topics & Concepts

Materials scienceMetamaterialDumbbellAnisotropyBand gapAcoustic metamaterialsNanoparticleNanoscopic scaleBrillouin zoneNanotechnologyOptoelectronicsCondensed matter physicsOpticsMedicinePhysicsPhysical therapyAcoustic Wave Phenomena ResearchPickering emulsions and particle stabilizationMaterial Dynamics and Properties