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LIMITING-LAWS OF POLYELECTROLYTE SOLUTIONS - IONIC DISTRIBUTION IN MIXED-VALENCY COUNTERIONS SYSTEMS .2. A COMPARISON OF CONDUCTOMETRIC DATA AND THEORETICAL PREDICTIONS

The competitive binding of monovalent and divalent counterions (M+ and M2+, respectively) has been studied by a conductometric procedure as described by De Jong et al. (Biophysical Chemistry 27 (1987) 173) for aqueous solutions of alkali metal polymethacrylates in the presence of Ca(NO3)2 or Mg(NO3)...

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Published in:	Biophysical chemistry 1992-04, Vol.42 (3), p.297-303
Main Authors:	BENEGAS, JC, PAOLETTI, S, CESARO, A, VANDENHOOP, MAGT, VANLEEUWEN, HP
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Language:	English
Subjects:	Biochemistry & Molecular Biology Biophysics Chemistry Chemistry, Physical Laboratorium voor Fysische chemie en Kolloïdkunde Life Sciences & Biomedicine Physical Chemistry and Colloid Science Physical Sciences Science & Technology
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description	The competitive binding of monovalent and divalent counterions (M+ and M2+, respectively) has been studied by a conductometric procedure as described by De Jong et al. (Biophysical Chemistry 27 (1987) 173) for aqueous solutions of alkali metal polymethacrylates in the presence of Ca(NO3)2 or Mg(NO3)2. The experimentally obtained fractions of conductometrically free counterions are compared with theoretical values computed according to a new thermodynamic model recently developed by Paoletti et al. (Biophysical Chemistry, 41 (1991) 73). For the systems studied, the fractions of free monovalent and divalent counterions can be fairly well described by the theory. In fact, the results support the assumption that under the present conditions the conductometrically obtained distribution parameters f1 and f2 approximate the equilibrium fractions of free monovalent and divalent counterions. For a degree of neutralization of 0.8 and a molar concentration ratio of divalent counterions and charged groups on the polyion up to 0.25, the mean M+/M2+ exchange ratio nu has been found to be 1.39 +/- 0.03 and 1.33 +/- 0.03 for the alkali metal/Ca/PMA and alkali metal/Mg/PMA systems, respectively. These values agree well with the theoretical value, which for this particular case is 1.38.
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A COMPARISON OF CONDUCTOMETRIC DATA AND THEORETICAL PREDICTIONS</title><source>Web of Science - Science Citation Index Expanded - 1992<img src="https://exlibris-pub.s3.amazonaws.com/fromwos-v2.jpg" /></source><source>ScienceDirect Physical & Analytical Chemistry Backfile</source><creator>BENEGAS, JC ; PAOLETTI, S ; CESARO, A ; VANDENHOOP, MAGT ; VANLEEUWEN, HP</creator><creatorcontrib>BENEGAS, JC ; PAOLETTI, S ; CESARO, A ; VANDENHOOP, MAGT ; VANLEEUWEN, HP</creatorcontrib><description>The competitive binding of monovalent and divalent counterions (M+ and M2+, respectively) has been studied by a conductometric procedure as described by De Jong et al. (Biophysical Chemistry 27 (1987) 173) for aqueous solutions of alkali metal polymethacrylates in the presence of Ca(NO3)2 or Mg(NO3)2. The experimentally obtained fractions of conductometrically free counterions are compared with theoretical values computed according to a new thermodynamic model recently developed by Paoletti et al. (Biophysical Chemistry, 41 (1991) 73). For the systems studied, the fractions of free monovalent and divalent counterions can be fairly well described by the theory. In fact, the results support the assumption that under the present conditions the conductometrically obtained distribution parameters f1 and f2 approximate the equilibrium fractions of free monovalent and divalent counterions. For a degree of neutralization of 0.8 and a molar concentration ratio of divalent counterions and charged groups on the polyion up to 0.25, the mean M+/M2+ exchange ratio nu has been found to be 1.39 +/- 0.03 and 1.33 +/- 0.03 for the alkali metal/Ca/PMA and alkali metal/Mg/PMA systems, respectively. These values agree well with the theoretical value, which for this particular case is 1.38.</description><identifier>ISSN: 0301-4622</identifier><identifier>EISSN: 1873-4200</identifier><language>eng</language><publisher>AMSTERDAM: Elsevier</publisher><subject>Biochemistry & Molecular Biology ; Biophysics ; Chemistry ; Chemistry, Physical ; Laboratorium voor Fysische chemie en Kolloïdkunde ; Life Sciences & Biomedicine ; Physical Chemistry and Colloid Science ; Physical Sciences ; Science & Technology</subject><ispartof>Biophysical chemistry, 1992-04, Vol.42 (3), p.297-303</ispartof><rights>Wageningen University & Research</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>true</woscitedreferencessubscribed><woscitedreferencescount>14</woscitedreferencescount><woscitedreferencesoriginalsourcerecordid>wosA1992HN04400010</woscitedreferencesoriginalsourcerecordid></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>230,315,786,790,891,27225</link.rule.ids></links><search><creatorcontrib>BENEGAS, JC</creatorcontrib><creatorcontrib>PAOLETTI, S</creatorcontrib><creatorcontrib>CESARO, A</creatorcontrib><creatorcontrib>VANDENHOOP, MAGT</creatorcontrib><creatorcontrib>VANLEEUWEN, HP</creatorcontrib><title>LIMITING-LAWS OF POLYELECTROLYTE SOLUTIONS - IONIC DISTRIBUTION IN MIXED-VALENCY COUNTERIONS SYSTEMS .2. 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In fact, the results support the assumption that under the present conditions the conductometrically obtained distribution parameters f1 and f2 approximate the equilibrium fractions of free monovalent and divalent counterions. For a degree of neutralization of 0.8 and a molar concentration ratio of divalent counterions and charged groups on the polyion up to 0.25, the mean M+/M2+ exchange ratio nu has been found to be 1.39 +/- 0.03 and 1.33 +/- 0.03 for the alkali metal/Ca/PMA and alkali metal/Mg/PMA systems, respectively. 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subjects	Biochemistry & Molecular Biology Biophysics Chemistry Chemistry, Physical Laboratorium voor Fysische chemie en Kolloïdkunde Life Sciences & Biomedicine Physical Chemistry and Colloid Science Physical Sciences Science & Technology
title	LIMITING-LAWS OF POLYELECTROLYTE SOLUTIONS - IONIC DISTRIBUTION IN MIXED-VALENCY COUNTERIONS SYSTEMS .2. A COMPARISON OF CONDUCTOMETRIC DATA AND THEORETICAL PREDICTIONS
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