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Modeling of organic and inorganic cation sorption by illite
Tamara Polubesova
*
, Shlomo Nir
*
Corresponding author for this work
Department of Soil and Water Sciences
Research output
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Contribution to journal
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Article
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peer-review
29
Scopus citations
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Keyphrases
Sorption
100%
Organic Cation
100%
Cation Exchange Capacity
100%
Inorganic Anions
100%
Illite
100%
Adsorption
71%
Model Calculation
71%
Na +
28%
Sodium Chloride
28%
Mg2+
28%
Ionic Strength
28%
Neutral Complexes
28%
Cesium Chloride
28%
Binding Coefficient
28%
Clay Minerals
14%
Ca2+
14%
Clay
14%
Sodium Nitrate
14%
Crystal Violet
14%
Cs +
14%
High Ionic Strength Solutions
14%
Double Layer
14%
Closed-loop System
14%
Adsorption Model
14%
Aqueous Suspension
14%
Charged Complexes
14%
Exchangeable Cations
14%
Li +
14%
Gouy-Chapman
14%
High Sulfate
14%
Specific Sorption
14%
Sulfate Concentration
14%
Na2SO4 Solution
14%
Benzyltrimethylammonium
14%
Specific Adsorption
14%
Sodium Sulfate
14%
Illite Clay
14%
Pharmacology, Toxicology and Pharmaceutical Science
Cations
100%
Ionic Strength
75%
Sodium Ion
50%
Magnesium Ion
50%
Potassium Ion
50%
Binding Coefficient
50%
Crystal Violet
25%
Calcium Ion
25%
Lithium Ion
25%
Cesium Ion
25%
Agricultural and Biological Sciences
Illite
100%
Cation Exchange Capacity
100%
Exchangeable Cations
14%
Clay Mineral
14%
Engineering
Cation Exchange Capacity
100%
Ionic Strength
28%
Double Layer
14%
Mols
14%
High Ionic Strength
14%
Closed System
14%
Electrostatic Force
14%
Chemical Engineering
Clay Mineral
100%