Proton Conductors
Solids, Membranes and Gels - Materials and Devices
Herausgeber: Colomban, Philippe
Proton Conductors
Solids, Membranes and Gels - Materials and Devices
Herausgeber: Colomban, Philippe
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This book gives a comprehensive review of proton conductors, including theory, techniques, the materials themselves and applications.
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This book gives a comprehensive review of proton conductors, including theory, techniques, the materials themselves and applications.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 616
- Erscheinungstermin: 31. Mai 2008
- Englisch
- Abmessung: 229mm x 152mm x 36mm
- Gewicht: 986g
- ISBN-13: 9780521078900
- ISBN-10: 0521078903
- Artikelnr.: 24488125
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
- Verlag: Cambridge University Press
- Seitenzahl: 616
- Erscheinungstermin: 31. Mai 2008
- Englisch
- Abmessung: 229mm x 152mm x 36mm
- Gewicht: 986g
- ISBN-13: 9780521078900
- ISBN-10: 0521078903
- Artikelnr.: 24488125
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
List of contributors; Preface; Part I. The Hydrogen Bond and Protonic
Species: 1. The hydrogen bond and chemical parameters favouring proton
mobility in solids A. Potier; 2. Protonic species and their structures D.
J. Jones and J. Rozière; 3. Proton conductors: classification and
conductivity Ph. Colomban and A. Novak; 4. Defects, non-stoichiometry and
phase transitions Ph. Colomban and A. Novak; 5. Structural studies of
proton conductors J. O. Thomas; 6. Hydrogen in metals: structure, diffusion
and tunnelling I. Svare; Part II. Materials: Preparation, Structures and
Properties: 7. Structure and characterization of hydrogen insertion
compounds of metal oxides P. G. Dickens and A. M. Chippindale; 8. High
temperature proton conductors based on perovskite-type oxides H. Iwahara;
9. Highly ionic hydroxides: unexpected proton conductivity in Mg(OH)2 and
homologues F. Freund; 10. Ice I. A. Ryzhkin; 11. Anhydrous materials:
oxonium perchlorate, acid phosphates, arsenates, sulphates and selenates
Ph. Colomban and A. Novak; 12. Hydrogen behaviour in graphite-nitric acid
intercalation compounds H. Fuzellier and J. Conard; Section 1. A. Inorganic
Ion Exchangers: 13. Proton-containing ß- and ß"-alumina structure type
compounds H. Ikawa; 14. Proton conduction in zeolites E. Krogh Andersen, I.
G. Krogh Anderson and E. Skou; 15. Proton containing NASICON phases A.
Clearfield; Section 2. B. Layer Hydrates: 16. Phosphates and phosphonates
of tetravalent metals as protonic conductors G. Alberti and M. Casciola;
17. Hydrogen uranyl phosphate H3OUO2PO4.3H2O (HUP), and related materials
Ph. Colomban and A. Novak; 18. From crystalline to amorphous (particle)
hydrates: inorganic polymers, glasses, clays, gels and porous media Ph.
Colomban and A. Novak; 19. Perfluorinated membranes G. Pourcelly and C.
Gavach; 20. Mixed inorganic-organic systems: the acid/polymer blends J. C.
Lassègues; Part III. Proton Dynamics and Charge Transport: 21. Incoherent
neutron scattering studies of proton conductors: from the anhydrous solid
state to aqueous solutions J. C. Lassègues; 22. NMR studies of local
motions in fast protonic conductors S. V. Bhat; 23. Vibrational
spectroscopy of proton conductors Ph. Colomban and A. Novak; 24. Raman
spectroscopic studies of proton conductors R. Frech; 25. Frequency
dependent conductivity, microwave dielectric relaxation and proton dynamics
Ph. Colomban and J. C. Badot; 26. Measuring the true proton conductivity
K.-D. Kreuer; 27. D.c. techniques and a.c./d.c. combination techniques E.
Skou, I. G. Krogh Andersen and E. Krogh Andersen; 28. NMR in gels and
porous media J. P. Korb and F. Devreux; Part IV. Proton Diffusion
Mechanisms: 29. Mobility in hydrogen-containing oxide bronzes: the
atomic-level detail R. C. T. Slade; 30. Conductivity mechanisms and models
in anhydrous protonic conductors Ph. Colomban and A. Novak; 31. Conduction
mechanisms in materials with volatile molecules K.-D. Kreuer; Part V.
Devices: Section 1. A. Energy Storage and Production: 32. Applications of
perfluorinated proton conductors (Nafions) C. Gavach and G. Pourcelly; 33.
Synthesis of polycrystalline H30+ and NH4+ß/ß"Al203 and potential
application in steam electrolysis/fuel-cells P. S. Nicholson; 34.
Fuel-cells, steam-electrolysis for hydrogen production and hydrogen
separation using high temperature protonic conductors H. Iwahara; Section
2. B. Small Components and Microionic Devices: 35. Ice-based devices I. A.
Ryzhkin; 36. Solid-state gas sensors operating at room temperature N. Miura
and N. Ymazoe; 37. All solid-state protonic batteries J. Guitton, C.
Poinsignon and J. Y. Sanchez; 38. Applications of proton conductors in
electrochromic devices (ECDs) O. Bohnke; 39. Supercapacitors and
interfacial charge accumulation devices Ph. Colomban and M. Pham-Thi;
Index.
Species: 1. The hydrogen bond and chemical parameters favouring proton
mobility in solids A. Potier; 2. Protonic species and their structures D.
J. Jones and J. Rozière; 3. Proton conductors: classification and
conductivity Ph. Colomban and A. Novak; 4. Defects, non-stoichiometry and
phase transitions Ph. Colomban and A. Novak; 5. Structural studies of
proton conductors J. O. Thomas; 6. Hydrogen in metals: structure, diffusion
and tunnelling I. Svare; Part II. Materials: Preparation, Structures and
Properties: 7. Structure and characterization of hydrogen insertion
compounds of metal oxides P. G. Dickens and A. M. Chippindale; 8. High
temperature proton conductors based on perovskite-type oxides H. Iwahara;
9. Highly ionic hydroxides: unexpected proton conductivity in Mg(OH)2 and
homologues F. Freund; 10. Ice I. A. Ryzhkin; 11. Anhydrous materials:
oxonium perchlorate, acid phosphates, arsenates, sulphates and selenates
Ph. Colomban and A. Novak; 12. Hydrogen behaviour in graphite-nitric acid
intercalation compounds H. Fuzellier and J. Conard; Section 1. A. Inorganic
Ion Exchangers: 13. Proton-containing ß- and ß"-alumina structure type
compounds H. Ikawa; 14. Proton conduction in zeolites E. Krogh Andersen, I.
G. Krogh Anderson and E. Skou; 15. Proton containing NASICON phases A.
Clearfield; Section 2. B. Layer Hydrates: 16. Phosphates and phosphonates
of tetravalent metals as protonic conductors G. Alberti and M. Casciola;
17. Hydrogen uranyl phosphate H3OUO2PO4.3H2O (HUP), and related materials
Ph. Colomban and A. Novak; 18. From crystalline to amorphous (particle)
hydrates: inorganic polymers, glasses, clays, gels and porous media Ph.
Colomban and A. Novak; 19. Perfluorinated membranes G. Pourcelly and C.
Gavach; 20. Mixed inorganic-organic systems: the acid/polymer blends J. C.
Lassègues; Part III. Proton Dynamics and Charge Transport: 21. Incoherent
neutron scattering studies of proton conductors: from the anhydrous solid
state to aqueous solutions J. C. Lassègues; 22. NMR studies of local
motions in fast protonic conductors S. V. Bhat; 23. Vibrational
spectroscopy of proton conductors Ph. Colomban and A. Novak; 24. Raman
spectroscopic studies of proton conductors R. Frech; 25. Frequency
dependent conductivity, microwave dielectric relaxation and proton dynamics
Ph. Colomban and J. C. Badot; 26. Measuring the true proton conductivity
K.-D. Kreuer; 27. D.c. techniques and a.c./d.c. combination techniques E.
Skou, I. G. Krogh Andersen and E. Krogh Andersen; 28. NMR in gels and
porous media J. P. Korb and F. Devreux; Part IV. Proton Diffusion
Mechanisms: 29. Mobility in hydrogen-containing oxide bronzes: the
atomic-level detail R. C. T. Slade; 30. Conductivity mechanisms and models
in anhydrous protonic conductors Ph. Colomban and A. Novak; 31. Conduction
mechanisms in materials with volatile molecules K.-D. Kreuer; Part V.
Devices: Section 1. A. Energy Storage and Production: 32. Applications of
perfluorinated proton conductors (Nafions) C. Gavach and G. Pourcelly; 33.
Synthesis of polycrystalline H30+ and NH4+ß/ß"Al203 and potential
application in steam electrolysis/fuel-cells P. S. Nicholson; 34.
Fuel-cells, steam-electrolysis for hydrogen production and hydrogen
separation using high temperature protonic conductors H. Iwahara; Section
2. B. Small Components and Microionic Devices: 35. Ice-based devices I. A.
Ryzhkin; 36. Solid-state gas sensors operating at room temperature N. Miura
and N. Ymazoe; 37. All solid-state protonic batteries J. Guitton, C.
Poinsignon and J. Y. Sanchez; 38. Applications of proton conductors in
electrochromic devices (ECDs) O. Bohnke; 39. Supercapacitors and
interfacial charge accumulation devices Ph. Colomban and M. Pham-Thi;
Index.
List of contributors; Preface; Part I. The Hydrogen Bond and Protonic
Species: 1. The hydrogen bond and chemical parameters favouring proton
mobility in solids A. Potier; 2. Protonic species and their structures D.
J. Jones and J. Rozière; 3. Proton conductors: classification and
conductivity Ph. Colomban and A. Novak; 4. Defects, non-stoichiometry and
phase transitions Ph. Colomban and A. Novak; 5. Structural studies of
proton conductors J. O. Thomas; 6. Hydrogen in metals: structure, diffusion
and tunnelling I. Svare; Part II. Materials: Preparation, Structures and
Properties: 7. Structure and characterization of hydrogen insertion
compounds of metal oxides P. G. Dickens and A. M. Chippindale; 8. High
temperature proton conductors based on perovskite-type oxides H. Iwahara;
9. Highly ionic hydroxides: unexpected proton conductivity in Mg(OH)2 and
homologues F. Freund; 10. Ice I. A. Ryzhkin; 11. Anhydrous materials:
oxonium perchlorate, acid phosphates, arsenates, sulphates and selenates
Ph. Colomban and A. Novak; 12. Hydrogen behaviour in graphite-nitric acid
intercalation compounds H. Fuzellier and J. Conard; Section 1. A. Inorganic
Ion Exchangers: 13. Proton-containing ß- and ß"-alumina structure type
compounds H. Ikawa; 14. Proton conduction in zeolites E. Krogh Andersen, I.
G. Krogh Anderson and E. Skou; 15. Proton containing NASICON phases A.
Clearfield; Section 2. B. Layer Hydrates: 16. Phosphates and phosphonates
of tetravalent metals as protonic conductors G. Alberti and M. Casciola;
17. Hydrogen uranyl phosphate H3OUO2PO4.3H2O (HUP), and related materials
Ph. Colomban and A. Novak; 18. From crystalline to amorphous (particle)
hydrates: inorganic polymers, glasses, clays, gels and porous media Ph.
Colomban and A. Novak; 19. Perfluorinated membranes G. Pourcelly and C.
Gavach; 20. Mixed inorganic-organic systems: the acid/polymer blends J. C.
Lassègues; Part III. Proton Dynamics and Charge Transport: 21. Incoherent
neutron scattering studies of proton conductors: from the anhydrous solid
state to aqueous solutions J. C. Lassègues; 22. NMR studies of local
motions in fast protonic conductors S. V. Bhat; 23. Vibrational
spectroscopy of proton conductors Ph. Colomban and A. Novak; 24. Raman
spectroscopic studies of proton conductors R. Frech; 25. Frequency
dependent conductivity, microwave dielectric relaxation and proton dynamics
Ph. Colomban and J. C. Badot; 26. Measuring the true proton conductivity
K.-D. Kreuer; 27. D.c. techniques and a.c./d.c. combination techniques E.
Skou, I. G. Krogh Andersen and E. Krogh Andersen; 28. NMR in gels and
porous media J. P. Korb and F. Devreux; Part IV. Proton Diffusion
Mechanisms: 29. Mobility in hydrogen-containing oxide bronzes: the
atomic-level detail R. C. T. Slade; 30. Conductivity mechanisms and models
in anhydrous protonic conductors Ph. Colomban and A. Novak; 31. Conduction
mechanisms in materials with volatile molecules K.-D. Kreuer; Part V.
Devices: Section 1. A. Energy Storage and Production: 32. Applications of
perfluorinated proton conductors (Nafions) C. Gavach and G. Pourcelly; 33.
Synthesis of polycrystalline H30+ and NH4+ß/ß"Al203 and potential
application in steam electrolysis/fuel-cells P. S. Nicholson; 34.
Fuel-cells, steam-electrolysis for hydrogen production and hydrogen
separation using high temperature protonic conductors H. Iwahara; Section
2. B. Small Components and Microionic Devices: 35. Ice-based devices I. A.
Ryzhkin; 36. Solid-state gas sensors operating at room temperature N. Miura
and N. Ymazoe; 37. All solid-state protonic batteries J. Guitton, C.
Poinsignon and J. Y. Sanchez; 38. Applications of proton conductors in
electrochromic devices (ECDs) O. Bohnke; 39. Supercapacitors and
interfacial charge accumulation devices Ph. Colomban and M. Pham-Thi;
Index.
Species: 1. The hydrogen bond and chemical parameters favouring proton
mobility in solids A. Potier; 2. Protonic species and their structures D.
J. Jones and J. Rozière; 3. Proton conductors: classification and
conductivity Ph. Colomban and A. Novak; 4. Defects, non-stoichiometry and
phase transitions Ph. Colomban and A. Novak; 5. Structural studies of
proton conductors J. O. Thomas; 6. Hydrogen in metals: structure, diffusion
and tunnelling I. Svare; Part II. Materials: Preparation, Structures and
Properties: 7. Structure and characterization of hydrogen insertion
compounds of metal oxides P. G. Dickens and A. M. Chippindale; 8. High
temperature proton conductors based on perovskite-type oxides H. Iwahara;
9. Highly ionic hydroxides: unexpected proton conductivity in Mg(OH)2 and
homologues F. Freund; 10. Ice I. A. Ryzhkin; 11. Anhydrous materials:
oxonium perchlorate, acid phosphates, arsenates, sulphates and selenates
Ph. Colomban and A. Novak; 12. Hydrogen behaviour in graphite-nitric acid
intercalation compounds H. Fuzellier and J. Conard; Section 1. A. Inorganic
Ion Exchangers: 13. Proton-containing ß- and ß"-alumina structure type
compounds H. Ikawa; 14. Proton conduction in zeolites E. Krogh Andersen, I.
G. Krogh Anderson and E. Skou; 15. Proton containing NASICON phases A.
Clearfield; Section 2. B. Layer Hydrates: 16. Phosphates and phosphonates
of tetravalent metals as protonic conductors G. Alberti and M. Casciola;
17. Hydrogen uranyl phosphate H3OUO2PO4.3H2O (HUP), and related materials
Ph. Colomban and A. Novak; 18. From crystalline to amorphous (particle)
hydrates: inorganic polymers, glasses, clays, gels and porous media Ph.
Colomban and A. Novak; 19. Perfluorinated membranes G. Pourcelly and C.
Gavach; 20. Mixed inorganic-organic systems: the acid/polymer blends J. C.
Lassègues; Part III. Proton Dynamics and Charge Transport: 21. Incoherent
neutron scattering studies of proton conductors: from the anhydrous solid
state to aqueous solutions J. C. Lassègues; 22. NMR studies of local
motions in fast protonic conductors S. V. Bhat; 23. Vibrational
spectroscopy of proton conductors Ph. Colomban and A. Novak; 24. Raman
spectroscopic studies of proton conductors R. Frech; 25. Frequency
dependent conductivity, microwave dielectric relaxation and proton dynamics
Ph. Colomban and J. C. Badot; 26. Measuring the true proton conductivity
K.-D. Kreuer; 27. D.c. techniques and a.c./d.c. combination techniques E.
Skou, I. G. Krogh Andersen and E. Krogh Andersen; 28. NMR in gels and
porous media J. P. Korb and F. Devreux; Part IV. Proton Diffusion
Mechanisms: 29. Mobility in hydrogen-containing oxide bronzes: the
atomic-level detail R. C. T. Slade; 30. Conductivity mechanisms and models
in anhydrous protonic conductors Ph. Colomban and A. Novak; 31. Conduction
mechanisms in materials with volatile molecules K.-D. Kreuer; Part V.
Devices: Section 1. A. Energy Storage and Production: 32. Applications of
perfluorinated proton conductors (Nafions) C. Gavach and G. Pourcelly; 33.
Synthesis of polycrystalline H30+ and NH4+ß/ß"Al203 and potential
application in steam electrolysis/fuel-cells P. S. Nicholson; 34.
Fuel-cells, steam-electrolysis for hydrogen production and hydrogen
separation using high temperature protonic conductors H. Iwahara; Section
2. B. Small Components and Microionic Devices: 35. Ice-based devices I. A.
Ryzhkin; 36. Solid-state gas sensors operating at room temperature N. Miura
and N. Ymazoe; 37. All solid-state protonic batteries J. Guitton, C.
Poinsignon and J. Y. Sanchez; 38. Applications of proton conductors in
electrochromic devices (ECDs) O. Bohnke; 39. Supercapacitors and
interfacial charge accumulation devices Ph. Colomban and M. Pham-Thi;
Index.