Response of a self-assembling to mechanical stress

Yves Dubief; Ross Packard; Sreedhar Manchu; Leonie Cowley

Response of a self-assembling to mechanical stress

ORAL

Abstract

Coarse-grained molecular dynamics is used to characterize the mechanical properties of a solution of phospholipids and polyelectrolytes under shear and compression. DPPC (1,2-Dipalmitoylphosphatidylcholine), polyelectrolyes and water are coarse-grained using the MARTINI force field. Simulations are performed using both GROMACS and LAMMPS. In our simulation, the solution is confined by two rigid walls. The objective of this work is (i) to study influence of the electrostatic nature of the wall on the self-assembling structure of the solution and (ii) to define the rheological and structural response of the solution under shear and compression by moving one wall.

^*The computational support of the Vermont Advanced Computing Center is gratefully acknowledged. Y. Dubief and S. Manchu also thank Vermont Epscor and NSF for their support

March 19, 2009, 11:27 AM – March 19, 2009, 11:39 AM

Authors

Yves Dubief
- University of Vermont
- University of Vermont, Mechanical Engineering and Material Science Program
Ross Packard
- University of Vermont
- University of Vermont, Material Science program
Sreedhar Manchu
- University of Vermont, Mechanical Engineering Program
Leonie Cowley
- University of Vermont, Mechanical Engineering Program