Advances in theory and methods are making it practical to consider fully first principles (de novo) predictions of structures, properties, and processes for organic materials. However, dispite the progress there remains an enormous challenge in bridging the vast range of distances and time scales between de novo atomistic simulations and the quantitative continuum models for the macroscopic systems essential in industrial design and operations. Recent advances relevant to such developments include: quantum chemistry including continuum solvation and force field embedding, de novo force fields to describe phase transitions, molecular dynamics (MD) including continuum solvent, non equilibrium MD for rheology and thermal conductivity and mesoscale simulations.
Revised: November 20, 2003 |
Published: October 1, 2001
Citation
Goddard W., T. Cagin, M. Blanco, N. Vaidehi, S. Dasgupta, W.B. Floriano, and M. Belmares, et al. 2001.Strategies for Multiscale Modeling and Simulation of Organic Materials: Polymers and Biopolymers.Computational and Theoretical Polymer Science 11, no. 5:329-343.