A Comparative Study of the Adsorption of Transition Metals on Kaolinite

Adsorption of Pb(II), Cu(II), Zn(II), Co(II), and Mn(II) to kaolinite was measured at 25°C in the presence of 5 mM KNO3. Adsorption edges (pH 3–10; total metal concentration 100 μM) for Pb(II) and Cu(II) were sigmoid, but those for Zn(II) and Co(II), and especially Mn(II), were characterized by dist...

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Veröffentlicht in:	Journal of colloid and interface science 1999-09, Vol.217 (2), p.403-410
Hauptverfasser:	Ikhsan, Jaslin, Johnson, Bruce B, Wells, John D
Format:	Artikel
Sprache:	eng
Schlagworte:	ADSORPTION Chemistry cobalt COPPER ENERGY CONSERVATION, CONSUMPTION, AND UTILIZATION ENVIRONMENTAL SCIENCES ENVIRONMENTAL TRANSPORT Exact sciences and technology General and physical chemistry KAOLINITE Langmuir LEAD MANGANESE ORE PROCESSING Solid-liquid interface SORPTIVE PROPERTIES surface complexation modeling Surface physical chemistry WASTE PROCESSING ZINC
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container_title	Journal of colloid and interface science
container_volume	217
creator	Ikhsan, Jaslin Johnson, Bruce B Wells, John D
description	Adsorption of Pb(II), Cu(II), Zn(II), Co(II), and Mn(II) to kaolinite was measured at 25°C in the presence of 5 mM KNO3. Adsorption edges (pH 3–10; total metal concentration 100 μM) for Pb(II) and Cu(II) were sigmoid, but those for Zn(II) and Co(II), and especially Mn(II), were characterized by distinct steps after about 40% adsorption. Adsorption isotherms (concentrations up to 60 μM; fixed pH) at pH 5.50 followed the simple Langmuir equation, but those at pH 7.50 (Zn(II), Co(II), and Mn(II)) required a two-site model. More protons were released during adsorption at the higher pH. All adsorption data, and the results of potentiometric titrations of kaolinite suspensions (alone and in the presence of metals at 100 μM), can be fitted closely by a constant-capacitance surface complexation model that incorporates two bidentate surface complexes. One involves electrostatic attraction between transition metal ions and the permanent, negatively charged sites on the silanol faces of kaolinite. The other is an inner-sphere complex at the variable-charge surface hydroxyl groups situated at the crystal edges and on the aluminol faces.
doi_str_mv	10.1006/jcis.1999.6377
format	Article
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Adsorption edges (pH 3–10; total metal concentration 100 μM) for Pb(II) and Cu(II) were sigmoid, but those for Zn(II) and Co(II), and especially Mn(II), were characterized by distinct steps after about 40% adsorption. Adsorption isotherms (concentrations up to 60 μM; fixed pH) at pH 5.50 followed the simple Langmuir equation, but those at pH 7.50 (Zn(II), Co(II), and Mn(II)) required a two-site model. More protons were released during adsorption at the higher pH. All adsorption data, and the results of potentiometric titrations of kaolinite suspensions (alone and in the presence of metals at 100 μM), can be fitted closely by a constant-capacitance surface complexation model that incorporates two bidentate surface complexes. One involves electrostatic attraction between transition metal ions and the permanent, negatively charged sites on the silanol faces of kaolinite. 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Adsorption edges (pH 3–10; total metal concentration 100 μM) for Pb(II) and Cu(II) were sigmoid, but those for Zn(II) and Co(II), and especially Mn(II), were characterized by distinct steps after about 40% adsorption. Adsorption isotherms (concentrations up to 60 μM; fixed pH) at pH 5.50 followed the simple Langmuir equation, but those at pH 7.50 (Zn(II), Co(II), and Mn(II)) required a two-site model. More protons were released during adsorption at the higher pH. All adsorption data, and the results of potentiometric titrations of kaolinite suspensions (alone and in the presence of metals at 100 μM), can be fitted closely by a constant-capacitance surface complexation model that incorporates two bidentate surface complexes. One involves electrostatic attraction between transition metal ions and the permanent, negatively charged sites on the silanol faces of kaolinite. 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Adsorption edges (pH 3–10; total metal concentration 100 μM) for Pb(II) and Cu(II) were sigmoid, but those for Zn(II) and Co(II), and especially Mn(II), were characterized by distinct steps after about 40% adsorption. Adsorption isotherms (concentrations up to 60 μM; fixed pH) at pH 5.50 followed the simple Langmuir equation, but those at pH 7.50 (Zn(II), Co(II), and Mn(II)) required a two-site model. More protons were released during adsorption at the higher pH. All adsorption data, and the results of potentiometric titrations of kaolinite suspensions (alone and in the presence of metals at 100 μM), can be fitted closely by a constant-capacitance surface complexation model that incorporates two bidentate surface complexes. One involves electrostatic attraction between transition metal ions and the permanent, negatively charged sites on the silanol faces of kaolinite. The other is an inner-sphere complex at the variable-charge surface hydroxyl groups situated at the crystal edges and on the aluminol faces.</abstract><cop>San Diego, CA</cop><pub>Elsevier Inc</pub><pmid>10469549</pmid><doi>10.1006/jcis.1999.6377</doi><tpages>8</tpages></addata></record>
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subjects	ADSORPTION Chemistry cobalt COPPER ENERGY CONSERVATION, CONSUMPTION, AND UTILIZATION ENVIRONMENTAL SCIENCES ENVIRONMENTAL TRANSPORT Exact sciences and technology General and physical chemistry KAOLINITE Langmuir LEAD MANGANESE ORE PROCESSING Solid-liquid interface SORPTIVE PROPERTIES surface complexation modeling Surface physical chemistry WASTE PROCESSING ZINC
title	A Comparative Study of the Adsorption of Transition Metals on Kaolinite
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