In this work we have performed fully atomistic MD simulations of bulk polyisobutylene (PIB), in order to extract detailed information on the relaxational mechanisms from short length-scale motions. Investigation of dynamics in terms of local reorientational correlation functions, dynamic structure factor, and calculation of relevant conformational jump rates, enable a direct comparison between observables of different experimental techniques such as NMR and neutron scattering. Moreover, the use of a full-atom model allows for a comparison between mainchain and side-group (methyl) dynamics.
Short length-scale dynamics of polyisobutylene by molecular
Saija F;
2001
Abstract
In this work we have performed fully atomistic MD simulations of bulk polyisobutylene (PIB), in order to extract detailed information on the relaxational mechanisms from short length-scale motions. Investigation of dynamics in terms of local reorientational correlation functions, dynamic structure factor, and calculation of relevant conformational jump rates, enable a direct comparison between observables of different experimental techniques such as NMR and neutron scattering. Moreover, the use of a full-atom model allows for a comparison between mainchain and side-group (methyl) dynamics.File in questo prodotto:
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Descrizione: Short length-scale dynamics of polyisobutylene by molecular dynamics simulations
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