Counterion Binding on Charged Spheres: Effect of pH and Ionic Strength on the Mobility of Carboxyl-Terminated Dendrimers

Q. R. Huang; P. L. Dubin; C. N. Moorefield; G. R. Newkome

doi:10.1021/jp991545m

Counterion Binding on Charged Spheres: Effect of pH and Ionic Strength on the Mobility of Carboxyl-Terminated Dendrimers

Q. R. Huang, P. L. Dubin, C. N. Moorefield, G. R. Newkome

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83 Scopus citations

Abstract

Capillary electrophoresis was used to study the effect of pH on the mobility of carboxyl-terminated dendrimers ranging from generation two to five. Even though the net charge for G5 (-972) is much higher than that of G2 (-36), its electrophoretic mobility is lower. Titration studies reveal that the effective surface charge density of G5 is lower than the geometric surface charge density, which we attribute to counterion binding. The results suggest a critical condition for nonspecific counterion binding to spheres, analogous but not identical to the well-known Manning condition for counterion condensation on polyelectrolytes.

Original language	English (US)
Pages (from-to)	898-904
Number of pages	7
Journal	Journal of Physical Chemistry B
Volume	104
Issue number	5
DOIs	https://doi.org/10.1021/jp991545m
State	Published - Feb 10 2000
Externally published	Yes

All Science Journal Classification (ASJC) codes

Physical and Theoretical Chemistry
Surfaces, Coatings and Films
Materials Chemistry

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title = "Counterion Binding on Charged Spheres: Effect of pH and Ionic Strength on the Mobility of Carboxyl-Terminated Dendrimers",

abstract = "Capillary electrophoresis was used to study the effect of pH on the mobility of carboxyl-terminated dendrimers ranging from generation two to five. Even though the net charge for G5 (-972) is much higher than that of G2 (-36), its electrophoretic mobility is lower. Titration studies reveal that the effective surface charge density of G5 is lower than the geometric surface charge density, which we attribute to counterion binding. The results suggest a critical condition for nonspecific counterion binding to spheres, analogous but not identical to the well-known Manning condition for counterion condensation on polyelectrolytes.",

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AU - Dubin, P. L.

AU - Moorefield, C. N.

AU - Newkome, G. R.

PY - 2000/2/10

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N2 - Capillary electrophoresis was used to study the effect of pH on the mobility of carboxyl-terminated dendrimers ranging from generation two to five. Even though the net charge for G5 (-972) is much higher than that of G2 (-36), its electrophoretic mobility is lower. Titration studies reveal that the effective surface charge density of G5 is lower than the geometric surface charge density, which we attribute to counterion binding. The results suggest a critical condition for nonspecific counterion binding to spheres, analogous but not identical to the well-known Manning condition for counterion condensation on polyelectrolytes.

AB - Capillary electrophoresis was used to study the effect of pH on the mobility of carboxyl-terminated dendrimers ranging from generation two to five. Even though the net charge for G5 (-972) is much higher than that of G2 (-36), its electrophoretic mobility is lower. Titration studies reveal that the effective surface charge density of G5 is lower than the geometric surface charge density, which we attribute to counterion binding. The results suggest a critical condition for nonspecific counterion binding to spheres, analogous but not identical to the well-known Manning condition for counterion condensation on polyelectrolytes.

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Counterion Binding on Charged Spheres: Effect of pH and Ionic Strength on the Mobility of Carboxyl-Terminated Dendrimers

Abstract

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