Understanding protein self-assembly is important for many biological and industrial processes. Proteins can self-assemble into crystals, filaments, gels, and other amorphous …
Janus colloids with one attractive patch on an otherwise repulsive particle surface serve as model systems to explore structure formation of particles with chemically heterogeneous …
We report the development and deployment of a coarse-graining method that is well suited for computer simulations of aggregation and phase separation of protein sequences with …
The self-assembly of anisotropic patchy particles with a triangular shape was studied by experiments and computer simulations. The colloidal particles were synthesized in a two …
Inspired by experimental studies of short-ranged attractive patchy particles, we study with computer simulations the phase behavior and the crystalline structures of one-patch colloids …
W Li, S Ravaine, E Duguet - Journal of colloid and interface science, 2020 - Elsevier
We report a quite simple strategy to assemble silica/polystyrene dumbbell-shaped nanoparticles into clusters with an aggregation number from two to more than 30. The …
We report methods to synthesize sub-micron-and micron-sized patchy silica particles with fluorescently labeled hemispherical titania protrusions, as well as routes to efficiently …
GM Meconi, IR Sasselli, V Bianco… - Reports on Progress …, 2022 - iopscience.iop.org
Proteins are the workhorse of life. They are the building infrastructure of living systems; they are the most efficient molecular machines known, and their enzymatic activity is still …
We investigate the effect of interaction range on the phase behaviour of Janus particles with a Kern-Frenkel potential. Specifically, we study interaction ranges Δ= 0.1σ, 0.3σ, 0.4σ, 0.5σ …