Tunable acoustic attenuation in dilute suspensions of subwavelength, non-spherical magnetic particles

Abstract: The microstructure (e.g., particle orientation and chaining) of suspensions of non-spherical ferromagnetic particles can be controlled by an external field, potentially making it possible to tune the acoustic properties of the suspension. Here, we experimentally demonstrate that dilute suspensions of subwavelength-sized oblate-spheroidal nickel particles exhibit up to a 35% change in attenuation coefficient at MHz frequencies upon changing the direction of an external magnetic field, for particle volume fracti… Show more

“…The ability to effectively manipulate microparticles or nanoparticles, especially anisotropic particles, in a fluid using an external field, opens up new possibilities in a variety of applications (Yuan, Liu & Shan 2017; Yuan et al. 2019; Cetindag et al.…”

Electric-field-controlled diffusion of anisotropic particles: theory and experiment

“…The ability to effectively manipulate microparticles or nanoparticles, especially anisotropic particles, in a fluid using an external field, opens up new possibilities in a variety of applications (Yuan, Liu & Shan 2017; Yuan et al. 2019; Cetindag et al.…”

Electric-field-controlled diffusion of anisotropic particles: theory and experiment

Experimental and theoretical study of the evolution of fluid-suspended graphene morphology driven by an applied electric field and the attainment of ultra-low percolation threshold in graphene-polymer nanocomposites