Nanosized Tubular Clay Minerals: Halloysite and Imogolite: Developments in Clay Science, cartea 7
Peng Yuan, Antoine Thill, Faïza Bergayaen Limba Engleză Hardback – 14 iun 2016
Besides being a great reference, the book provides research scientists, university teachers, industrial chemists, physicists, graduate students, and environmental engineers and technologists with the ability to analyze and characterize clays and clay minerals to improve selectivity, along with techniques on how they can apply clays in ceramics in all aspects of industrial, geotechnical, agricultural, and environmental use.
- Examines clay properties from the molecular to the macroscopic scale
- Addresses experimental and modeling issues
- Authored by experts who are well-versed in the properties of nanosized tubular clay minerals
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Specificații
ISBN-13: 9780081002933
ISBN-10: 0081002939
Pagini: 778
Dimensiuni: 152 x 229 x 41 mm
Greutate: 1.38 kg
Editura: ELSEVIER SCIENCE
Seria Developments in Clay Science
ISBN-10: 0081002939
Pagini: 778
Dimensiuni: 152 x 229 x 41 mm
Greutate: 1.38 kg
Editura: ELSEVIER SCIENCE
Seria Developments in Clay Science
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Cuprins
1. General Introduction
F. Bergaya, P. Yuan and A. Thill
Part I. Geology and Mineralogy of Nanosized Tubular Clay Minerals
2. Geology and Mineralogy of Nanosized Tubular Halloysite
E. Joussein
3. Geology and Mineralogy of Imogolite-Type Materials
C. Levard and I. Basile-Doelsch
Part II. Structure and Properties of Nanosized Tubular Clay Minerals
4. Physicochemical Properties of Halloysite
H. Yang, Y. Zhang, and J. Ouyang
5. Characterisation of Halloysite by Electron Microscopy
T. Kogure
6. Characterisation of Halloysite by Spectroscopy
J. T. Kloprogge
7. Thermal-Treatment-Induced Deformations and Modifications of Halloysite
P. Yuan
8. Surface Modification of Halloysite
D. Tan, P. Yuan, D. Liu and P. Du
9. Physicochemical Properties of Imogolite
A. Fernandez-Martinez and L.J. Michot
10. Characterization of Imogolite by Microscopic and Spectroscopic Methods
A. Thill
11. Deformations and Thermal Modifications of Imogolite
S. Rouzière, M.S. Amara, E. Paineau, and P. Launois
12. Surface Chemical Modifications of Imogolite
B. Bonelli
13. Liquid-Crystalline Phases of Imogolite and Halloysite Dispersions
P. Davidson and I. Dozov
14. Molecular Simulation of Nanosized Tubular Clay Minerals
H.A. Duarte
Part III. Synthesis of Nanosized Tubular Clay Minerals
15. Why a 1:1 2D Structure Tends to Roll? A Thermodynamic Perspective
L. Belloni and A. Thill
16. Formation Mechanisms of Tubular Structure of Halloysite
J. Niu
17. Halloysite-like Structure via Delamination of Kaolinite
J. Matusik
18. From Molecular Precursors to Imogolite Nanotubes
A. Thill
19. Imogolite-Like Family
N. Arancibia-Miranda and M. Escudey
Part IV. Applications of Nanosized Tubular Clay Minerals
20. An Overview on the Safety of Tubular Clay Minerals
M.-C. Jaurand
21. Halloysite Polymer Nanocomposites
J. Huang, Z.H. Tang, X.H. Zhang, and B.C. Guo
22. Halloysite for Controllable Loading and Release
E. Abdullayev and Y. Lvov
23. Halloysite for Adsorption and Pollution Remediation
J. Matusik
24. Imogolite Polymer Nanocomposites
W. Ma, Y. Higaki, and A. Takahara
25. Imogolite for Catalysis and Adsorption
E. Garrone and B. Bonelli
26. Health and Medical Applications of Tubular Clay Minerals
C. Aguzzi, G. Sadri, P. Cerezo, E. Carazo, and C. Viseras
27. Industrial Implications in the Uses of Tubular Clay Minerals
O. Poncelet and J. Skrzypski
28. Epilogue
F. Bergaya, A. Thill, and P. Yuan
F. Bergaya, P. Yuan and A. Thill
Part I. Geology and Mineralogy of Nanosized Tubular Clay Minerals
2. Geology and Mineralogy of Nanosized Tubular Halloysite
E. Joussein
3. Geology and Mineralogy of Imogolite-Type Materials
C. Levard and I. Basile-Doelsch
Part II. Structure and Properties of Nanosized Tubular Clay Minerals
4. Physicochemical Properties of Halloysite
H. Yang, Y. Zhang, and J. Ouyang
5. Characterisation of Halloysite by Electron Microscopy
T. Kogure
6. Characterisation of Halloysite by Spectroscopy
J. T. Kloprogge
7. Thermal-Treatment-Induced Deformations and Modifications of Halloysite
P. Yuan
8. Surface Modification of Halloysite
D. Tan, P. Yuan, D. Liu and P. Du
9. Physicochemical Properties of Imogolite
A. Fernandez-Martinez and L.J. Michot
10. Characterization of Imogolite by Microscopic and Spectroscopic Methods
A. Thill
11. Deformations and Thermal Modifications of Imogolite
S. Rouzière, M.S. Amara, E. Paineau, and P. Launois
12. Surface Chemical Modifications of Imogolite
B. Bonelli
13. Liquid-Crystalline Phases of Imogolite and Halloysite Dispersions
P. Davidson and I. Dozov
14. Molecular Simulation of Nanosized Tubular Clay Minerals
H.A. Duarte
Part III. Synthesis of Nanosized Tubular Clay Minerals
15. Why a 1:1 2D Structure Tends to Roll? A Thermodynamic Perspective
L. Belloni and A. Thill
16. Formation Mechanisms of Tubular Structure of Halloysite
J. Niu
17. Halloysite-like Structure via Delamination of Kaolinite
J. Matusik
18. From Molecular Precursors to Imogolite Nanotubes
A. Thill
19. Imogolite-Like Family
N. Arancibia-Miranda and M. Escudey
Part IV. Applications of Nanosized Tubular Clay Minerals
20. An Overview on the Safety of Tubular Clay Minerals
M.-C. Jaurand
21. Halloysite Polymer Nanocomposites
J. Huang, Z.H. Tang, X.H. Zhang, and B.C. Guo
22. Halloysite for Controllable Loading and Release
E. Abdullayev and Y. Lvov
23. Halloysite for Adsorption and Pollution Remediation
J. Matusik
24. Imogolite Polymer Nanocomposites
W. Ma, Y. Higaki, and A. Takahara
25. Imogolite for Catalysis and Adsorption
E. Garrone and B. Bonelli
26. Health and Medical Applications of Tubular Clay Minerals
C. Aguzzi, G. Sadri, P. Cerezo, E. Carazo, and C. Viseras
27. Industrial Implications in the Uses of Tubular Clay Minerals
O. Poncelet and J. Skrzypski
28. Epilogue
F. Bergaya, A. Thill, and P. Yuan