Mobile chains in field of force

To establish force-field-based (molecular) modeling capability that will accurately predict condensed-phase thermophysical properties for materials containing aliphatic azide chains, potential parameters for atom types unique to such chains have been developed and added to the COMPASS force field. T

Our SDFF for linear saturated hydrocarbon chains has been used to calculate the chain modulus of isolated and crystalline chains of n-alkanes of varying lengths. This has been done for static deformations and for the dynamic deformation in the longitudinal acoustic mode (LAM). Extrapolation to infin

Force-field calculations are reported for large delocalized cations. The results for the geometries, heats of formation, and -electron densities agree well with Ž . MP2 full r6-31G\* ab initio calculations. Both methods give similar results for the distortion of the carbon skeletons of unsubstituted

## Abstract Computer simulations offer a valuable way to study membrane systems, from simple lipid bilayers to large transmembrane protein complexes and lipid‐nucleic acid complexes for drug delivery. Their accuracy depends on the quality of the force field parameters used to describe the component

The effect of a tensile stress or an electric field on the conformation of a flexible polymer chain has been studied by combining theory with numerical simulation. In the presence of such external agents, the macromolecule experiences the action of two opposite forces at the chain ends. Two models a