Add to ORKGWe present a comprehensive study of nanoparticle deposition from drying of colloidal droplets. By means of lattice Boltzmann modeling and theoretical analysis, various deposition patterns, including mountain-like, uniform and coffee ring, as well as un-/symmetrical multiring/mountain-like patterns are achieved. The ratio of nanoparticles deposited at droplet peripheries and center is proposed to quantify different patterns. Its value is controlled by the competition between the capillary flow and nanoparticle diffusion, leading to a linear dependence on an effective P\'eclet number, across over three orders of magnitude. Remarkably, the final deposition pattern can be predicted based on material properties only
As a droplet containing colloidal material dries on a surface, the suspended particles are deposited...
Spatially varying the ordering of colloids of multiple sizes at micro–nano scales finds application ...
When a colloidal suspension droplet evaporates from a solid surface, it leaves a characteristic depo...
We develop a lattice gas model for the drying of droplets of a nanoparticle suspension on a planar s...
Drying of colloidal suspensions and their nanoparticle deposition in porous structures are ubiquitou...
Nanofluids are a new kind of fluids engineered by dispersing nanoparticles in base fluids. After ful...
We suggest a computational approach for estimating the ring-like deposition of nanoparticles contain...
Sessile nanofluid droplet evaporation is receiving increasing attention lately due to its potential ...
Drying of colloidal suspensions appears in many applications such as coatings (paints, ink printing,...
Nanoparticle deposition by drying of colloidal suspension in thin micro-porous architectures has att...
The coffee-ring effect for particle deposition near the three-phase line after drying a pinned sessi...
We illustrate the importance of particle geometry on droplet contact line pinning, 'coffee-stain' fo...
We present a kinetic Monte Carlo (KMC) grid-based model for the drying of drops of a nanoparticle su...
Droplet nucleation and growth on superhydrophobic nanoarrays is simulated by employing a multiphase,...
International audienceWe study the size and shape of the final deposit obtained when a drop with col...
As a droplet containing colloidal material dries on a surface, the suspended particles are deposited...
Spatially varying the ordering of colloids of multiple sizes at micro–nano scales finds application ...
When a colloidal suspension droplet evaporates from a solid surface, it leaves a characteristic depo...
We develop a lattice gas model for the drying of droplets of a nanoparticle suspension on a planar s...
Drying of colloidal suspensions and their nanoparticle deposition in porous structures are ubiquitou...
Nanofluids are a new kind of fluids engineered by dispersing nanoparticles in base fluids. After ful...
We suggest a computational approach for estimating the ring-like deposition of nanoparticles contain...
Sessile nanofluid droplet evaporation is receiving increasing attention lately due to its potential ...
Drying of colloidal suspensions appears in many applications such as coatings (paints, ink printing,...
Nanoparticle deposition by drying of colloidal suspension in thin micro-porous architectures has att...
The coffee-ring effect for particle deposition near the three-phase line after drying a pinned sessi...
We illustrate the importance of particle geometry on droplet contact line pinning, 'coffee-stain' fo...
We present a kinetic Monte Carlo (KMC) grid-based model for the drying of drops of a nanoparticle su...
Droplet nucleation and growth on superhydrophobic nanoarrays is simulated by employing a multiphase,...
International audienceWe study the size and shape of the final deposit obtained when a drop with col...
As a droplet containing colloidal material dries on a surface, the suspended particles are deposited...
Spatially varying the ordering of colloids of multiple sizes at micro–nano scales finds application ...
When a colloidal suspension droplet evaporates from a solid surface, it leaves a characteristic depo...