Length-Scale Effects in Hydrophobic Polymer Collapse Transitions
Nico F. A. van der Vegt
Abstract
The study of molecular mechanisms for cosolvent-driven hydrophobic polymer collapse transitions in water is of pivotal importance in the field of smart responsive materials. Computational studies together with complementary experimental data have led to the discovery and understanding of new phenomena in recent years. However, elementary mechanisms, generally contributing to polymer coil-globule transitions in different classes of cosolvent-water systems, remain elusive due to compensating energy-entropy effects. Herein, I discuss the role of length scales in polymer solubility problems. New ideas on surfactant mechanisms are discussed based on examples in which these mechanisms drive polymer swelling or collapse.
Topics & Concepts
PolymerLength scaleHydrophobic effectChemical physicsPulmonary surfactantMaterials scienceEntropy (arrow of time)SolubilityNanotechnologyChemistryPhysicsThermodynamicsOrganic chemistryMechanicsComposite materialSurfactants and Colloidal SystemsMaterial Dynamics and PropertiesPhase Equilibria and Thermodynamics