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The Resource Surface and interface chemistry of clay minerals, edited by R. Schoonheydt, C.T. Johnston, F. Bergaya

Surface and interface chemistry of clay minerals, edited by R. Schoonheydt, C.T. Johnston, F. Bergaya

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The item Surface and interface chemistry of clay minerals, edited by R. Schoonheydt, C.T. Johnston, F. Bergaya represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Sydney Jones Library, University of Liverpool.
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Summary: Surface and Interface Chemistry of Clay Minerals, Volume 9, delivers a fundamental understanding of the surface and interface chemistry of clay minerals, thus serving as a valuable resource for researchers active in the fields of materials chemistry and sustainable chemistry. Clay minerals, with surfaces ranging from hydrophilic, to hydrophobic, are widely studied and used as adsorbents. Adsorption can occur at the edges and surfaces of clay mineral layers and particles, and in the interlayer region. This diversity in properties and the possibility to tune the surface properties of clay minerals to match the properties of adsorbed molecules is the basis for study. This book requires a fundamental understanding of the surface and interface chemistry of clay minerals, and of the interaction between adsorbate and adsorbent. It is an essential resource for clay scientists, geologists, chemists, physicists, material scientists, researchers, and students

Language: eng

Work

Publication

Extent: 1 online resource.

Contents

Front Cover; Surface and Interface Chemistry of Clay Minerals; Copyright; Dedication; Contents; Contributors; Preface; Acknowledgements; Chapter 1: Clay minerals and their surfaces; 1.1. TO or 1:1 and TOT or 2:1 clay minerals; 1.2. Structural considerations; 1.3. Isomorphous substitution; 1.4. Consequences of isomorphous substitution; 1.4.1. Cation exchange; 1.4.2. Cation exchange capacity; 1.4.3. Intercalation and swelling; 1.5. Surfaces, surface areas, and surface sites; 1.6. Surface atoms; 1.7. Molecule-molecule and molecule-surface interactions; 1.7.1. Molecule-molecule interactions
1.7.1.1. Ion-ion interactions1.7.1.2. Dipole-dipole interactions; 1.7.1.3. Charge-nonpolar interaction; 1.7.1.4. Dipolar-nonpolar interaction; 1.7.1.5. Nonpolar-nonpolar interactions; 1.7.1.6. H-bonding: X-H -- Y; 1.7.2. Molecule-surface and surface-surface interactions; References; Further reading; Chapter 2: Determination of surface areas and textural properties of clay minerals; 2.1. Introduction; 2.2. Nonswelling and nonmicroporous clay minerals; 2.3. Microporous clay minerals; 2.4. Swelling clay minerals; 2.4.1. The dry state
2.4.1.1. Gas adsorption techniques using c̀lassical adsorbates2.4.1.2. Adsorption techniques using polar adsorbates; 2.4.2. Swelling clay minerals dispersions; 2.5. Concluding remarks; References; Chapter 3: Quantum-chemical modelling of clay mineral surfaces and clay mineral-surface-adsorbate interactions; 3.1. Quantum mechanical description of interatomic interactions; 3.1.1. Hartree-Fock method; 3.1.2. Density functional theory; 3.1.3. Dispersion correction; 3.1.4. Basis set; 3.1.5. Effective core potentials; 3.1.6. System size and boundary conditions
3.1.7. Structural optimisation and molecular dynamics simulations3.1.8. Ab initio spectroscopy; 3.2. Simulations of clay minerals structure; 3.2.1. Structure of TO/TOT layer and isomorphous substitutions; 3.2.2. Structure of hydroxyl layer in 1:1 clay minerals; 3.2.3. Structure of the interlayer and basal plane in 2:1 clay minerals; 3.3. Elastic properties of clay minerals; 3.4. Redox processes; 3.5. Interaction of clay minerals with organic compounds; 3.5.1. Natural organic matter and environmental engineering; 3.5.2. Organic contaminants; 3.5.3. Pillared organo-clay nanocomposites
3.5.4. Interaction with petroleum molecules3.5.5. Adsorption of biomolecules; 3.6. Acid-base properties of edge surfaces and cation complexation; 3.6.1. Edge surface structures and surface pKa; 3.6.2. Metal complexation at edge sites; 3.7. Outlook; References; Chapter 4: Clay mineral-water interactions; 4.1. Introduction; 4.2. Water interactions with ǹeutral clay mineral surfaces; 4.2.1. Talc and pyrophyllite; 4.2.2. Kaolin group mineral; 4.2.2.1.1. Kaolinite; 4.2.2.1.2. Halloysite; 4.3. Water interactions with c̀harged clay mineral surfaces (ion-dipole); 4.3.1. Smectites

Isbn: 9780081024324

Instance

Label: Surface and interface chemistry of clay minerals

Title: Surface and interface chemistry of clay minerals

Statement of responsibility: edited by R. Schoonheydt, C.T. Johnston, F. Bergaya

Contributor

Editor

Subject

Language: eng

Summary: Surface and Interface Chemistry of Clay Minerals, Volume 9, delivers a fundamental understanding of the surface and interface chemistry of clay minerals, thus serving as a valuable resource for researchers active in the fields of materials chemistry and sustainable chemistry. Clay minerals, with surfaces ranging from hydrophilic, to hydrophobic, are widely studied and used as adsorbents. Adsorption can occur at the edges and surfaces of clay mineral layers and particles, and in the interlayer region. This diversity in properties and the possibility to tune the surface properties of clay minerals to match the properties of adsorbed molecules is the basis for study. This book requires a fundamental understanding of the surface and interface chemistry of clay minerals, and of the interaction between adsorbate and adsorbent. It is an essential resource for clay scientists, geologists, chemists, physicists, material scientists, researchers, and students

Member of

Cataloging source: N$T

Dewey number: 620.191

Index: no index present

LC call number: TN941

Literary form: non fiction

Nature of contents: dictionaries

http://library.link/vocab/relatedWorkOrContributorName

Schoonheydt, Robert
Johnston, C. T.
Bergaya, Faïza

Series statement: Developments in clay science

Series volume: 9

http://library.link/vocab/subjectName

Clay.
Interfaces (Physical sciences)

Label: Surface and interface chemistry of clay minerals, edited by R. Schoonheydt, C.T. Johnston, F. Bergaya

Instantiates

Surface and interface chemistry of clay minerals

Publication

Copyright

Antecedent source: unknown

Carrier category: online resource

Carrier category code

Carrier MARC source: rdacarrier

Color: multicolored

Content category: text

Content type code

Content type MARC source: rdacontent

Contents

Front Cover; Surface and Interface Chemistry of Clay Minerals; Copyright; Dedication; Contents; Contributors; Preface; Acknowledgements; Chapter 1: Clay minerals and their surfaces; 1.1. TO or 1:1 and TOT or 2:1 clay minerals; 1.2. Structural considerations; 1.3. Isomorphous substitution; 1.4. Consequences of isomorphous substitution; 1.4.1. Cation exchange; 1.4.2. Cation exchange capacity; 1.4.3. Intercalation and swelling; 1.5. Surfaces, surface areas, and surface sites; 1.6. Surface atoms; 1.7. Molecule-molecule and molecule-surface interactions; 1.7.1. Molecule-molecule interactions
1.7.1.1. Ion-ion interactions1.7.1.2. Dipole-dipole interactions; 1.7.1.3. Charge-nonpolar interaction; 1.7.1.4. Dipolar-nonpolar interaction; 1.7.1.5. Nonpolar-nonpolar interactions; 1.7.1.6. H-bonding: X-H -- Y; 1.7.2. Molecule-surface and surface-surface interactions; References; Further reading; Chapter 2: Determination of surface areas and textural properties of clay minerals; 2.1. Introduction; 2.2. Nonswelling and nonmicroporous clay minerals; 2.3. Microporous clay minerals; 2.4. Swelling clay minerals; 2.4.1. The dry state
2.4.1.1. Gas adsorption techniques using c̀lassical adsorbates2.4.1.2. Adsorption techniques using polar adsorbates; 2.4.2. Swelling clay minerals dispersions; 2.5. Concluding remarks; References; Chapter 3: Quantum-chemical modelling of clay mineral surfaces and clay mineral-surface-adsorbate interactions; 3.1. Quantum mechanical description of interatomic interactions; 3.1.1. Hartree-Fock method; 3.1.2. Density functional theory; 3.1.3. Dispersion correction; 3.1.4. Basis set; 3.1.5. Effective core potentials; 3.1.6. System size and boundary conditions
3.1.7. Structural optimisation and molecular dynamics simulations3.1.8. Ab initio spectroscopy; 3.2. Simulations of clay minerals structure; 3.2.1. Structure of TO/TOT layer and isomorphous substitutions; 3.2.2. Structure of hydroxyl layer in 1:1 clay minerals; 3.2.3. Structure of the interlayer and basal plane in 2:1 clay minerals; 3.3. Elastic properties of clay minerals; 3.4. Redox processes; 3.5. Interaction of clay minerals with organic compounds; 3.5.1. Natural organic matter and environmental engineering; 3.5.2. Organic contaminants; 3.5.3. Pillared organo-clay nanocomposites
3.5.4. Interaction with petroleum molecules3.5.5. Adsorption of biomolecules; 3.6. Acid-base properties of edge surfaces and cation complexation; 3.6.1. Edge surface structures and surface pKa; 3.6.2. Metal complexation at edge sites; 3.7. Outlook; References; Chapter 4: Clay mineral-water interactions; 4.1. Introduction; 4.2. Water interactions with ǹeutral clay mineral surfaces; 4.2.1. Talc and pyrophyllite; 4.2.2. Kaolin group mineral; 4.2.2.1.1. Kaolinite; 4.2.2.1.2. Halloysite; 4.3. Water interactions with c̀harged clay mineral surfaces (ion-dipole); 4.3.1. Smectites

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Extent: 1 online resource.

File format: unknown

Form of item: online

Isbn: 9780081024324

Level of compression: unknown

Media category: computer

Media MARC source: rdamedia

Media type code

Note: Online access with subscription: Elsevier (Sciencedirect Freedom Collection)

Quality assurance targets: not applicable

Reformatting quality: unknown

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Specific material designation: remote

Label: Surface and interface chemistry of clay minerals, edited by R. Schoonheydt, C.T. Johnston, F. Bergaya

Publication

Copyright

Antecedent source: unknown

Carrier category: online resource

Carrier category code

Carrier MARC source: rdacarrier

Color: multicolored

Content category: text

Content type code

Content type MARC source: rdacontent

Contents

Front Cover; Surface and Interface Chemistry of Clay Minerals; Copyright; Dedication; Contents; Contributors; Preface; Acknowledgements; Chapter 1: Clay minerals and their surfaces; 1.1. TO or 1:1 and TOT or 2:1 clay minerals; 1.2. Structural considerations; 1.3. Isomorphous substitution; 1.4. Consequences of isomorphous substitution; 1.4.1. Cation exchange; 1.4.2. Cation exchange capacity; 1.4.3. Intercalation and swelling; 1.5. Surfaces, surface areas, and surface sites; 1.6. Surface atoms; 1.7. Molecule-molecule and molecule-surface interactions; 1.7.1. Molecule-molecule interactions
1.7.1.1. Ion-ion interactions1.7.1.2. Dipole-dipole interactions; 1.7.1.3. Charge-nonpolar interaction; 1.7.1.4. Dipolar-nonpolar interaction; 1.7.1.5. Nonpolar-nonpolar interactions; 1.7.1.6. H-bonding: X-H -- Y; 1.7.2. Molecule-surface and surface-surface interactions; References; Further reading; Chapter 2: Determination of surface areas and textural properties of clay minerals; 2.1. Introduction; 2.2. Nonswelling and nonmicroporous clay minerals; 2.3. Microporous clay minerals; 2.4. Swelling clay minerals; 2.4.1. The dry state
2.4.1.1. Gas adsorption techniques using c̀lassical adsorbates2.4.1.2. Adsorption techniques using polar adsorbates; 2.4.2. Swelling clay minerals dispersions; 2.5. Concluding remarks; References; Chapter 3: Quantum-chemical modelling of clay mineral surfaces and clay mineral-surface-adsorbate interactions; 3.1. Quantum mechanical description of interatomic interactions; 3.1.1. Hartree-Fock method; 3.1.2. Density functional theory; 3.1.3. Dispersion correction; 3.1.4. Basis set; 3.1.5. Effective core potentials; 3.1.6. System size and boundary conditions
3.1.7. Structural optimisation and molecular dynamics simulations3.1.8. Ab initio spectroscopy; 3.2. Simulations of clay minerals structure; 3.2.1. Structure of TO/TOT layer and isomorphous substitutions; 3.2.2. Structure of hydroxyl layer in 1:1 clay minerals; 3.2.3. Structure of the interlayer and basal plane in 2:1 clay minerals; 3.3. Elastic properties of clay minerals; 3.4. Redox processes; 3.5. Interaction of clay minerals with organic compounds; 3.5.1. Natural organic matter and environmental engineering; 3.5.2. Organic contaminants; 3.5.3. Pillared organo-clay nanocomposites
3.5.4. Interaction with petroleum molecules3.5.5. Adsorption of biomolecules; 3.6. Acid-base properties of edge surfaces and cation complexation; 3.6.1. Edge surface structures and surface pKa; 3.6.2. Metal complexation at edge sites; 3.7. Outlook; References; Chapter 4: Clay mineral-water interactions; 4.1. Introduction; 4.2. Water interactions with ǹeutral clay mineral surfaces; 4.2.1. Talc and pyrophyllite; 4.2.2. Kaolin group mineral; 4.2.2.1.1. Kaolinite; 4.2.2.1.2. Halloysite; 4.3. Water interactions with c̀harged clay mineral surfaces (ion-dipole); 4.3.1. Smectites

Dimensions: unknown

Extent: 1 online resource.

File format: unknown

Form of item: online

Isbn: 9780081024324

Level of compression: unknown

Media category: computer

Media MARC source: rdamedia

Media type code

Note: Online access with subscription: Elsevier (Sciencedirect Freedom Collection)

Quality assurance targets: not applicable

Reformatting quality: unknown

Sound: unknown sound

Specific material designation: remote

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