Brownian diffusion of spherical nanoparticles is usually exploited to ascertain the rheological properties of complex media. However, the behavior of the tracer particles is affected by a number of phenomena linked to the interplay between the dynamics of the particles and polymer coils. For this reason, the characteristic lengths of the dispersed entities, depletion phenomena, and the presence of sticking conditions have been observed to affect the translational diffusion of the probes. On the other hand, the retardation effect of the host fluid on the rotational diffusion of nonspherical particles is less understood. We explore the possibility of studying this phenomenon by analyzing the electro-orientation of the particles in different s...
We present an asymptotic and scaling analysis of the long-time self-diffusivity of a Brownian spheri...
We analyze the scaling law for the polymer-induced retardation a nanoparticle experiences as it move...
We use scaling theory to derive the time dependence of the mean-square displacement 〈Δr2〉 of a spher...
We studied the rotational and translational diffusion of optically anisotropic liquid crystal partic...
Motion of nanoparticles suspended in fluids are dominated by Brownian diffusiona physical property w...
Rheological approaches based on micro- or nanoscopic probe objects are of interest due to the low vo...
We demonstrate that tracer/host size asymmetry and electrostatic interactions strongly affect rotati...
According to the Stokes–Einstein–Debye (SED) relation, the rotational diffusion coefficient of a col...
According to the Stokes-Einstein-Debye (SED) relation, the rotational diffusion coefficient of a col...
Active Brownian particles (APs) have recently been shown to exhibit enhanced rotational diffusion (E...
This project utilizes the optical tweezer system combined with digital video microscopy to study the...
crystals, polymer dispersed liquid crystals, and porous systems. Abstract. – Using depolarized quasi...
The self-diffusion of a single large particle in a fluid is usually described by the classic Stokes–...
Nanoparticle transport through macromolecular fluids plays important roles in several interdisciplin...
Single-particle tracking was used to measure the diffusion in aqueous suspension of dilute colloidal...
We present an asymptotic and scaling analysis of the long-time self-diffusivity of a Brownian spheri...
We analyze the scaling law for the polymer-induced retardation a nanoparticle experiences as it move...
We use scaling theory to derive the time dependence of the mean-square displacement 〈Δr2〉 of a spher...
We studied the rotational and translational diffusion of optically anisotropic liquid crystal partic...
Motion of nanoparticles suspended in fluids are dominated by Brownian diffusiona physical property w...
Rheological approaches based on micro- or nanoscopic probe objects are of interest due to the low vo...
We demonstrate that tracer/host size asymmetry and electrostatic interactions strongly affect rotati...
According to the Stokes–Einstein–Debye (SED) relation, the rotational diffusion coefficient of a col...
According to the Stokes-Einstein-Debye (SED) relation, the rotational diffusion coefficient of a col...
Active Brownian particles (APs) have recently been shown to exhibit enhanced rotational diffusion (E...
This project utilizes the optical tweezer system combined with digital video microscopy to study the...
crystals, polymer dispersed liquid crystals, and porous systems. Abstract. – Using depolarized quasi...
The self-diffusion of a single large particle in a fluid is usually described by the classic Stokes–...
Nanoparticle transport through macromolecular fluids plays important roles in several interdisciplin...
Single-particle tracking was used to measure the diffusion in aqueous suspension of dilute colloidal...
We present an asymptotic and scaling analysis of the long-time self-diffusivity of a Brownian spheri...
We analyze the scaling law for the polymer-induced retardation a nanoparticle experiences as it move...
We use scaling theory to derive the time dependence of the mean-square displacement 〈Δr2〉 of a spher...