Complexation, phase separation, and redissolution in polyelectrolyte-macroion solutions
(2003) In Macromolecules 36(2). p.508-519- Abstract
- The complexation, phase separation, and redissolution of polyelectrolyte-macroion solutions have been studied by means of Monte Carlo simulations. A simple model system with focus on the electrostatic interactions has been used to examine the properties of the macroion solutions at different amounts of oppositely charged polyelectrolytes. As oppositely charged polyelectrolytes are added, the stable macroion solution with repelling macroions becomes successively less stable. The strong electrostatic attraction brings macroions and polyelectrolytes closely together, and slightly before macromolecular charge equivalence, distinct and repelling complexes formed by macroions and polyelectrolytes are established. At macromolecular charge... (More)
- The complexation, phase separation, and redissolution of polyelectrolyte-macroion solutions have been studied by means of Monte Carlo simulations. A simple model system with focus on the electrostatic interactions has been used to examine the properties of the macroion solutions at different amounts of oppositely charged polyelectrolytes. As oppositely charged polyelectrolytes are added, the stable macroion solution with repelling macroions becomes successively less stable. The strong electrostatic attraction brings macroions and polyelectrolytes closely together, and slightly before macromolecular charge equivalence, distinct and repelling complexes formed by macroions and polyelectrolytes are established. At macromolecular charge equivalence, the system becomes unstable, and a large and loose cluster of macro
ons and polyelectrolytes is formed. Finally, in excess of polyelectrolytes, the
large cluster is broken up and the macroions are dispersed again-a
redissolution has occurred. The effect of the macroion radius, the
chain length, and the chain flexibility on the phase separation is also
investigated. A semiflexible chain displayed a smaller tendency to
promote phase instability as compared to flexible and stiff chains, the
origin most likely arising from the similar chain persistence length
and macroion
radius. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/122208
- author
- Skepö, Marie LU and Linse, Per LU
- organization
- publishing date
- 2003
- type
- Contribution to journal
- publication status
- published
- subject
- in
- Macromolecules
- volume
- 36
- issue
- 2
- pages
- 508 - 519
- publisher
- The American Chemical Society (ACS)
- external identifiers
-
- wos:000180601500033
- scopus:0037469288
- ISSN
- 0024-9297
- DOI
- 10.1021/ma020634l
- language
- English
- LU publication?
- yes
- id
- 91fd7c13-bb28-4ea3-9dec-c2664ef9aa26 (old id 122208)
- date added to LUP
- 2016-04-01 12:18:53
- date last changed
- 2022-04-21 05:48:07
@article{91fd7c13-bb28-4ea3-9dec-c2664ef9aa26, abstract = {{The complexation, phase separation, and redissolution of polyelectrolyte-macroion solutions have been studied by means of Monte Carlo simulations. A simple model system with focus on the electrostatic interactions has been used to examine the properties of the macroion solutions at different amounts of oppositely charged polyelectrolytes. As oppositely charged polyelectrolytes are added, the stable macroion solution with repelling macroions becomes successively less stable. The strong electrostatic attraction brings macroions and polyelectrolytes closely together, and slightly before macromolecular charge equivalence, distinct and repelling complexes formed by macroions and polyelectrolytes are established. At macromolecular charge equivalence, the system becomes unstable, and a large and loose cluster of macro<br/><br> ons and polyelectrolytes is formed. Finally, in excess of polyelectrolytes, the<br/><br> large cluster is broken up and the macroions are dispersed again-a<br/><br> redissolution has occurred. The effect of the macroion radius, the<br/><br> chain length, and the chain flexibility on the phase separation is also<br/><br> investigated. A semiflexible chain displayed a smaller tendency to<br/><br> promote phase instability as compared to flexible and stiff chains, the<br/><br> origin most likely arising from the similar chain persistence length<br/><br> and macroion<br/><br> radius.}}, author = {{Skepö, Marie and Linse, Per}}, issn = {{0024-9297}}, language = {{eng}}, number = {{2}}, pages = {{508--519}}, publisher = {{The American Chemical Society (ACS)}}, series = {{Macromolecules}}, title = {{Complexation, phase separation, and redissolution in polyelectrolyte-macroion solutions}}, url = {{http://dx.doi.org/10.1021/ma020634l}}, doi = {{10.1021/ma020634l}}, volume = {{36}}, year = {{2003}}, }