Machine-learned many-body potentials from Poisson-Boltzmann calculations on clusters up to 48 colloids show that higher-order interactions reduce cohesion and eliminate broad gas-liquid phase separation, consistent with primitive model pair and triplet potentials.
Theory of the stability of strongly charged lyophobic sols and of the adhesion of strongly charged particles in solutions of electrolytes
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
cond-mat.soft 2years
2026 2representative citing papers
Molecular dynamics of a ramp-shoulder fluid shows water-like anomalies arising from cooperative radial restructuring and amorphous radial frustration rather than shell competition alone.
citing papers explorer
-
Many-body attractions do not stabilize gas-liquid phase separation in aqueous dispersions of charged colloids within the Poisson-Boltzmann framework
Machine-learned many-body potentials from Poisson-Boltzmann calculations on clusters up to 48 colloids show that higher-order interactions reduce cohesion and eliminate broad gas-liquid phase separation, consistent with primitive model pair and triplet potentials.
-
Amorphous Radial Frustration and Water-Like Anomalies in a Ramp-Shoulder Fluid
Molecular dynamics of a ramp-shoulder fluid shows water-like anomalies arising from cooperative radial restructuring and amorphous radial frustration rather than shell competition alone.