A scaling analysis of the stretching of collapsed polymer brushes
is presented. The stretching is associated with a first-order phase
transition involving a coexistence of a collapsed layer and stretched
chain segments. The coexistence regime is characterized by a f approximately
L0 force law. Linear force laws are found for weaker as well as for
stronger deformations.
%0 Journal Article
%1 halperin91a
%A Halperin, A.
%A Zhulina, E. B.
%D 1991
%J Macromolecules
%K imported
%N 19
%P 5393--5397
%T Stretching Polymer Brushes In Poor Solvents
%V 24
%X A scaling analysis of the stretching of collapsed polymer brushes
is presented. The stretching is associated with a first-order phase
transition involving a coexistence of a collapsed layer and stretched
chain segments. The coexistence regime is characterized by a f approximately
L0 force law. Linear force laws are found for weaker as well as for
stronger deformations.
@article{halperin91a,
abstract = {A scaling analysis of the stretching of collapsed polymer brushes
is presented. The stretching is associated with a first-order phase
transition involving a coexistence of a collapsed layer and stretched
chain segments. The coexistence regime is characterized by a f approximately
L0 force law. Linear force laws are found for weaker as well as for
stronger deformations.},
added-at = {2007-06-15T17:33:15.000+0200},
author = {Halperin, A. and Zhulina, E. B.},
biburl = {https://www.bibsonomy.org/bibtex/218ffcb2b18cfa66cfff7e2c0afa9715b/kaigrass},
interhash = {eadebaac73f23bfbc0e5b8120be33bca},
intrahash = {18ffcb2b18cfa66cfff7e2c0afa9715b},
journal = {Macromolecules},
keywords = {imported},
number = 19,
pages = {5393--5397},
timestamp = {2007-06-15T17:33:19.000+0200},
title = {Stretching Polymer Brushes In Poor Solvents},
volume = 24,
year = 1991
}