Monte Carlo simulation of small particle adsorption at the solid/electrolyte solution interface

## Abstract Summary: Monte Carlo simulation on a simple lattice model has been used to study the adsorption of asymmetrical triblock copolymers from a non‐selective solvent at the solid‐liquid interface. The size distributions of train, loop and tail configurations for those copolymers are obtained

Competitive adsorption of polydisperse polymers at a solid-liquid interface is studied by Monte Carlo simulation (MC). The dynamic process of adsorption prior to equilibrium is traced. Changing fractionation is observed during the process of adsorption. Shorter chains are preferentially adsorbed due

We report a Monte-Carlo simulation study of solid graphite/Fe±C melt interface at high temperatures. Atoms were arranged on a hexagonal lattice with pair-wise short-range interactions. Simulations in the canonical ensemble were carried out as a function of temperature, carbon content of the melt and

Adsorption of protons on a heterogeneous solid surface is modeled using the Monte Carlo (MC) simulation method. The surface of an oxide is assumed to consist of adsorption sites with pK assigned according to a quasi-Gaussian distribution. The influence of the electrostatic interactions combined with