Clustering and dynamic relaxation of microphase former in one-dimensional system

Yi Hu; Patrick Charbonneau

Clustering and dynamic relaxation of microphase former in one-dimensional system

POSTER

Abstract

Microphases ubiquitously form in systems of particles interacting through short-range attraction and long-range repulsion. Depending on the conditions, these microphases can be both ordered or disordered. Although the latter are typical materials targets, their assembly requires a dynamical understanding of the former. By considering a one-dimensional model that can be analyzed using both simulations and theory, we pinpoint the microscopic origin of the rich and dynamically complex behavior of disordered microphases.

^*We asknowledge support by the National Science Foundation's (NSF) Research Triangle Materials Research Science and Engineering Center (MRSEC) under Grant No. (DMR-1121107) and also by NSF's grant from the Nanomanufacturing Program (CMMI-1363483).

Presenters

Yi Hu
- Department of Chemistry, Duke Univ

Authors

Yi Hu
- Department of Chemistry, Duke Univ
Patrick Charbonneau
- Duke University
- Chemistry, Duke University
- Department of Chemistry, Duke Univ
- Duke Univ
- Chemistry and Physics, Duke University