Polyampholyte solutions between charged surfaces: Debye–Huckel theory Adsorption of a polyelectrolyte chain to a charged surface Polyampholyte solutions between charged surfaces: Debye–Huckel theory
Publication
, Journal Article
Dobrynin, AV; Rubinstein, M; Joanny, J-F
Published in: The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics Journal of Chemical Physics Colligative Properties The Journal of Chemical Physics The Journal of Chemical Physics
1998
We calculate the interaction between two identically charged surfaces immersed in a polyampholyte solution in the framework of the linear response approximation. In the case of the randomly charged polyampholyte with equal fractions of positively f ϩ and negatively f Ϫ charged groups the interaction between charged surfaces is similar to that in electrolyte solutions. The screening of the surface potential in the linear response approximation is due to the charge redistribution on the length scales of the polymer coils without the excess of the polymers. In the solution of asymmetric polyampholytes (f ϩ f Ϫ) the charge density fluctuations result in additional attractive interactions linearly proportional to the charge asymmetry.
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Published In
The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics Journal of Chemical Physics Colligative Properties The Journal of Chemical Physics The Journal of Chemical Physics
DOI
Publication Date
1998
Volume
109
Start / End Page
1543 / 134905
Related Subject Headings
- Chemical Physics
- 51 Physical sciences
- 40 Engineering
- 34 Chemical sciences
- 09 Engineering
- 03 Chemical Sciences
- 02 Physical Sciences
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Dobrynin, A. V., Rubinstein, M., & Joanny, J.-F. (1998). Polyampholyte solutions between charged surfaces: Debye–Huckel theory Adsorption of a polyelectrolyte chain to a charged surface Polyampholyte solutions between charged surfaces: Debye–Huckel theory. The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics Journal of Chemical Physics Colligative Properties The Journal of Chemical Physics The Journal of Chemical Physics, 109, 1543–134905. https://doi.org/10.1063/1.1672157
Dobrynin, Andrey V., Michael Rubinstein, and Jean-François Joanny. “Polyampholyte solutions between charged surfaces: Debye–Huckel theory Adsorption of a polyelectrolyte chain to a charged surface Polyampholyte solutions between charged surfaces: Debye–Huckel theory.” The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics Journal of Chemical Physics Colligative Properties The Journal of Chemical Physics The Journal of Chemical Physics 109 (1998): 1543–134905. https://doi.org/10.1063/1.1672157.
Dobrynin AV, Rubinstein M, Joanny J-F. Polyampholyte solutions between charged surfaces: Debye–Huckel theory Adsorption of a polyelectrolyte chain to a charged surface Polyampholyte solutions between charged surfaces: Debye–Huckel theory. The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics Journal of Chemical Physics Colligative Properties The Journal of Chemical Physics The Journal of Chemical Physics. 1998;109:1543–134905.
Dobrynin, Andrey V., et al. “Polyampholyte solutions between charged surfaces: Debye–Huckel theory Adsorption of a polyelectrolyte chain to a charged surface Polyampholyte solutions between charged surfaces: Debye–Huckel theory.” The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics Journal of Chemical Physics Colligative Properties The Journal of Chemical Physics The Journal of Chemical Physics, vol. 109, 1998, pp. 1543–134905. Manual, doi:10.1063/1.1672157.
Dobrynin AV, Rubinstein M, Joanny J-F. Polyampholyte solutions between charged surfaces: Debye–Huckel theory Adsorption of a polyelectrolyte chain to a charged surface Polyampholyte solutions between charged surfaces: Debye–Huckel theory. The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics Journal of Chemical Physics Colligative Properties The Journal of Chemical Physics The Journal of Chemical Physics. 1998;109:1543–134905.
Published In
The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics The Journal of Chemical Physics Journal of Chemical Physics Colligative Properties The Journal of Chemical Physics The Journal of Chemical Physics
DOI
Publication Date
1998
Volume
109
Start / End Page
1543 / 134905
Related Subject Headings
- Chemical Physics
- 51 Physical sciences
- 40 Engineering
- 34 Chemical sciences
- 09 Engineering
- 03 Chemical Sciences
- 02 Physical Sciences