Polymer Elasticity-Driven Wrinkling and Coarsening in High Temperature Buckling of Metal-Capped Polymer Thin Films
- 13 July 2004
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 93 (3) , 034301
- https://doi.org/10.1103/physrevlett.93.034301
Abstract
We report the critical effects the deformational stress from the elastic nature of a confined polymer layer has during the relaxation process on the buckling of thin metal-polymer bilayer systems (less than 100 nm) even above the temperature at which the polymer is in the liquid flow region. In contrast with what is generally believed, the dispersion force does not play a significant role in the buckling. We also find that the final wrinkled waves take on the shape of wormlike islands. The coarsening leading to the island structure is driven by the growth in amplitude of the dominant wave at the expense of less dominant ones.Keywords
This publication has 25 references indexed in Scilit:
- Microshaping metal surfaces by wave-directed self-organizationApplied Physics Letters, 2003
- Evolution of a Stress-Driven Pattern in Thin Bilayer Films: Spinodal WrinklingPhysical Review Letters, 2003
- Physical Self-Assembly of Microstructures by Anisotropic BucklingAdvanced Materials, 2002
- Short- and Long-Range Interactions in Thin Films of Polymer Blends in MicrochannelsMacromolecules, 2002
- Kinetics of buckling of a compressed film on a viscous substrateApplied Physics Letters, 2001
- Deformation of a Glassy Polymer Film by Long-Range Intermolecular ForcesLangmuir, 1998
- Spontaneous formation of ordered structures in thin films of metals supported on an elastomeric polymerNature, 1998
- Surface Waves on Polymer BrushesMacromolecules, 1996
- Surface modes and deformation energy of a molten polymer brushMacromolecules, 1992
- Mixed Mode Cracking in Layered MaterialsPublished by Elsevier ,1991