Themed collection Colloidal interactions, dynamics and rheology

9 items
Open Access Accepted Manuscript - Paper

Pairing-specific microstructure in depletion gels of bidisperse colloids

From the themed collection: Colloidal interactions, dynamics and rheology
Open Access Paper

Effective patchiness from critical points of a coarse-grained protein model with explicit shape and charge anisotropy

Critical points of an anisotropic, coarse-grained protein model are used to detemine an “effective patchiness” by comparison to the Kern–Frenkel patchy model.

Graphical abstract: Effective patchiness from critical points of a coarse-grained protein model with explicit shape and charge anisotropy
From the themed collection: Colloidal interactions, dynamics and rheology
Open Access Paper

Quasi-two-dimensional dispersions of Brownian particles with competitive interactions: phase behavior and structural properties

Langevin dynamics simulations reveal that quasi-2D Brownian particles with competitive short-range attractive and long-range repulsive interactions exhibit hexagonal ordering and double-stranded cluster morphologies as temperature and density vary.

Graphical abstract: Quasi-two-dimensional dispersions of Brownian particles with competitive interactions: phase behavior and structural properties
From the themed collection: Colloidal interactions, dynamics and rheology
Open Access Paper

Phase behavior of binary mixtures of hollow and regular microgels

Hollow microgels can suppress the formation of colloidal crystals at low size polydispersity due to their high deformability and capacity to buckle.

Graphical abstract: Phase behavior of binary mixtures of hollow and regular microgels
From the themed collection: Colloidal interactions, dynamics and rheology
Paper

Cybloids – creation and control of cybernetic colloids

We present colloidal particles with freely selectable properties by external programming via a feedback loop. Here, the feedback potential depends on the past particle position(s) resulting in self-propulsion and self-organization into crystals.

Graphical abstract: Cybloids – creation and control of cybernetic colloids
From the themed collection: Colloidal interactions, dynamics and rheology
Open Access Paper

Core–shell nanogels: the effects of morphology, electro- and magnetostatic interactions

We study the influence of core–shell morphology on the structural characteristics of nanogels.

Graphical abstract: Core–shell nanogels: the effects of morphology, electro- and magnetostatic interactions
From the themed collection: Colloidal interactions, dynamics and rheology
Open Access Paper

Curvature induces and enhances transport of spinning colloids through narrow channels

Curvature in a microfluidic channel can be used to induce and enhance the propulsion of magnetically driven microscopic rotors.

Graphical abstract: Curvature induces and enhances transport of spinning colloids through narrow channels
From the themed collection: Colloidal interactions, dynamics and rheology
Open Access Paper

Computational investigation of the effects of polymer grafting on the effective interaction between silica nanoparticles in water

Altering solvent-mediated effective interaction between silica nanoparticles in water through polymer grafting.

Graphical abstract: Computational investigation of the effects of polymer grafting on the effective interaction between silica nanoparticles in water
From the themed collection: Colloidal interactions, dynamics and rheology
Open Access Paper

Elucidating the role of physicochemical interactions on gel rheology

Bond kinetics and network restructuring in gels control their yield transition and thixotropic recovery.

Graphical abstract: Elucidating the role of physicochemical interactions on gel rheology
From the themed collection: Colloidal interactions, dynamics and rheology
9 items

About this collection

The issue aims to collect outstanding contributions in the areas of colloidal stability, dynamics under external fields, and the behaviour of complex colloidal dispersions. We welcome experimental, theoretical, and computational studies that advance our understanding of colloidal systems, highlighting topics such as phase behaviour, non-equilibrium dynamics, and the interplay between colloidal particles and their surrounding medium, as well as the development of advanced optical and mechanical tools to probe soft matter.

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