Dynamics of polymer chains in confined space. A computer simulation study

## Abstract The simple cubic‐lattice model of polymer chains was used to study the dynamic properties of adsorbed, branched polymers. The model star‐branched chains consisted of __f__ = 3 arms of equal lengths. The chain was modeled with excluded volume, that is, in good solvent conditions. The onl

## Abstract A coarse‐grained model of heteropolymer (polypeptide) chains in a slit was designed in order to study the folding process in confinement. The idealized chains represented heteropolymers consisted of hydrophobic and hydrophilic united atoms, which were restricted to vertices of a (310) l

## Abstract We study the segmental dynamics of poly(ethylene oxide) (PEO) from microscopic simulations in the neat polymer and a polymer electrolyte (PEO/LiBF~4~) by analyzing the normal modes. We verify the applicability of the Rouse theory, specifically for the polymer electrolyte where dynamic h

This paper uses Monte Carlo simulation on a diamond lattice model to calculate the dimension of a polymer chain confined in a sphere while considering the hindrances of bond angle and potential barrier. The results agree with those of Wu Da~hen~ and Qian Renyuan et el. Further, an empirical formula