One-dimensional metals : conjugated polymers, organic crystals, carbon nanotubes and graphene / / Siegmar Roth and David Carroll |
Autore | Roth Siegmar |
Edizione | [Third completely revised and enlarged edition.] |
Pubbl/distr/stampa | Weinheim an der Bergstrasse, Germany : , : Wiley-VCH Verlag GmbH & Co. KGaA, , 2015 |
Descrizione fisica | 1 online resource (363 p.) |
Disciplina | 537.62 |
Soggetto topico |
One-dimensional conductors
Conducting polymers Superconductivity Molecular electronics |
ISBN |
3-527-69019-0
3-527-69017-4 3-527-69020-4 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
""Cover""; ""Title Page""; ""Copyright""; ""Contents""; ""About the Authors""; ""Preface to the Third Edition""; ""Preface to the Second Edition""; ""Preface to the First Edition""; ""Chapter 1 Introduction""; ""1.1 Dimensionality""; ""1.2 Approaching One-Dimensionality from Outside and from Inside""; ""1.3 Dimensionality of Carbon Solids""; ""1.3.1 Three-Dimensional Carbon: Diamond""; ""1.3.2 Two-Dimensional Carbon: Graphite""; ""1.3.3 One-Dimensional Carbon: Cumulene, Polycarbyne, Polyene""; ""1.3.4 Zero-Dimensional Carbon: Fullerene""; ""1.3.5 What about Something in between?""
""1.4 Peculiarities of One-Dimensional Systems""""References""; ""Chapter 2 One-Dimensional Substances""; ""2.1 A15 Compounds""; ""2.2 Krogmann Salts""; ""2.3 Alchemists' Gold""; ""2.4 Bechgaard Salts and Other Charge Transfer Compounds""; ""2.5 Polysulfurnitride""; ""2.6 Phthalocyanines and Other Macrocycles""; ""2.7 Transition Metal Chalcogenides and Halides""; ""2.8 Conducting Polymers""; ""2.9 Halogen-Bridged Mixed-Valence Transition Metal Complexes""; ""2.10 Miscellaneous""; ""2.10.1 Poly-deckers""; ""2.10.2 Polycarbenes""; ""2.11 Isolated Nanowires"" ""2.11.1 Templates and Filled Pores""""2.11.2 Asymmetric Growth Using Catalysts""; ""2.11.3 Carbon Nanotubes""; ""2.11.4 Inorganic Semiconductor Quantum Wires""; ""2.11.5 Metal Nanowires""; ""2.12 Summary""; ""References""; ""Chapter 3 One-Dimensional Solid-State Physics""; ""3.1 Crystal Lattice and Translation Symmetry""; ""3.1.1 Classifying the Lattice""; ""3.1.2 Using a Coordinate System""; ""3.1.3 The One-Dimensional Lattice""; ""3.1.4 Carbon Nanotubes as One-Dimensional Lattices""; ""3.2 Reciprocal Lattice, Reciprocal Space""; ""3.2.1 Describing Objects Using Momentum and Energy"" ""3.2.2 Constructing the Reciprocal Lattice""""3.2.3 Applying This to One Dimension""; ""3.3 The Dynamic Crystal and Dispersion Relations""; ""3.3.1 Crystal Vibrations and Phonons""; ""3.3.2 Quantum Considerations with Phonons""; ""3.3.3 Counting Phonons""; ""3.4 Phonons and Electrons Are Different""; ""3.4.1 Electron Waves""; ""3.4.2 Electron Statistics""; ""3.4.3 The Fermi Surface""; ""3.4.4 The Free Electron Model""; ""3.4.5 Nearly Free Electron Model; Energy Bands, Energy Gap, and Density of States""; ""3.4.6 The Molecular Orbital Approach""; ""3.4.7 Returning to Carbon Nanotubes"" ""3.5 Summary""""References""; ""Chapter 4 Electron-Phonon Coupling and the Peierls Transition""; ""4.1 The Peierls Distortion""; ""4.2 Phonon Softening and the Kohn Anomaly""; ""4.3 Fermi Surface Warping""; ""4.4 Beyond Electron-Phonon Coupling""; ""References""; ""Chapter 5 Conducting Polymers: Solitons and Polarons""; ""5.1 General Remarks""; ""5.2 Conjugated Double Bonds""; ""5.3 A Molecular Picture""; ""5.3.1 Bonding and Antibonding States""; ""5.3.2 The Polyenes""; ""5.3.3 Translating to Bloch's Theorem""; ""5.4 Conjugational Defects""; ""5.5 Solitons""; ""5.6 Generation of Solitons"" ""5.7 Nondegenerate Ground-State Polymers: Polarons"" |
Record Nr. | UNINA-9910131492803321 |
Roth Siegmar
![]() |
||
Weinheim an der Bergstrasse, Germany : , : Wiley-VCH Verlag GmbH & Co. KGaA, , 2015 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
One-dimensional metals : conjugated polymers, organic crystals, carbon nanotubes and graphene / / Siegmar Roth and David Carroll |
Autore | Roth Siegmar |
Edizione | [Third completely revised and enlarged edition.] |
Pubbl/distr/stampa | Weinheim an der Bergstrasse, Germany : , : Wiley-VCH Verlag GmbH & Co. KGaA, , 2015 |
Descrizione fisica | 1 online resource (363 p.) |
Disciplina | 537.62 |
Soggetto topico |
One-dimensional conductors
Conducting polymers Superconductivity Molecular electronics |
ISBN |
3-527-69019-0
3-527-69017-4 3-527-69020-4 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
""Cover""; ""Title Page""; ""Copyright""; ""Contents""; ""About the Authors""; ""Preface to the Third Edition""; ""Preface to the Second Edition""; ""Preface to the First Edition""; ""Chapter 1 Introduction""; ""1.1 Dimensionality""; ""1.2 Approaching One-Dimensionality from Outside and from Inside""; ""1.3 Dimensionality of Carbon Solids""; ""1.3.1 Three-Dimensional Carbon: Diamond""; ""1.3.2 Two-Dimensional Carbon: Graphite""; ""1.3.3 One-Dimensional Carbon: Cumulene, Polycarbyne, Polyene""; ""1.3.4 Zero-Dimensional Carbon: Fullerene""; ""1.3.5 What about Something in between?""
""1.4 Peculiarities of One-Dimensional Systems""""References""; ""Chapter 2 One-Dimensional Substances""; ""2.1 A15 Compounds""; ""2.2 Krogmann Salts""; ""2.3 Alchemists' Gold""; ""2.4 Bechgaard Salts and Other Charge Transfer Compounds""; ""2.5 Polysulfurnitride""; ""2.6 Phthalocyanines and Other Macrocycles""; ""2.7 Transition Metal Chalcogenides and Halides""; ""2.8 Conducting Polymers""; ""2.9 Halogen-Bridged Mixed-Valence Transition Metal Complexes""; ""2.10 Miscellaneous""; ""2.10.1 Poly-deckers""; ""2.10.2 Polycarbenes""; ""2.11 Isolated Nanowires"" ""2.11.1 Templates and Filled Pores""""2.11.2 Asymmetric Growth Using Catalysts""; ""2.11.3 Carbon Nanotubes""; ""2.11.4 Inorganic Semiconductor Quantum Wires""; ""2.11.5 Metal Nanowires""; ""2.12 Summary""; ""References""; ""Chapter 3 One-Dimensional Solid-State Physics""; ""3.1 Crystal Lattice and Translation Symmetry""; ""3.1.1 Classifying the Lattice""; ""3.1.2 Using a Coordinate System""; ""3.1.3 The One-Dimensional Lattice""; ""3.1.4 Carbon Nanotubes as One-Dimensional Lattices""; ""3.2 Reciprocal Lattice, Reciprocal Space""; ""3.2.1 Describing Objects Using Momentum and Energy"" ""3.2.2 Constructing the Reciprocal Lattice""""3.2.3 Applying This to One Dimension""; ""3.3 The Dynamic Crystal and Dispersion Relations""; ""3.3.1 Crystal Vibrations and Phonons""; ""3.3.2 Quantum Considerations with Phonons""; ""3.3.3 Counting Phonons""; ""3.4 Phonons and Electrons Are Different""; ""3.4.1 Electron Waves""; ""3.4.2 Electron Statistics""; ""3.4.3 The Fermi Surface""; ""3.4.4 The Free Electron Model""; ""3.4.5 Nearly Free Electron Model; Energy Bands, Energy Gap, and Density of States""; ""3.4.6 The Molecular Orbital Approach""; ""3.4.7 Returning to Carbon Nanotubes"" ""3.5 Summary""""References""; ""Chapter 4 Electron-Phonon Coupling and the Peierls Transition""; ""4.1 The Peierls Distortion""; ""4.2 Phonon Softening and the Kohn Anomaly""; ""4.3 Fermi Surface Warping""; ""4.4 Beyond Electron-Phonon Coupling""; ""References""; ""Chapter 5 Conducting Polymers: Solitons and Polarons""; ""5.1 General Remarks""; ""5.2 Conjugated Double Bonds""; ""5.3 A Molecular Picture""; ""5.3.1 Bonding and Antibonding States""; ""5.3.2 The Polyenes""; ""5.3.3 Translating to Bloch's Theorem""; ""5.4 Conjugational Defects""; ""5.5 Solitons""; ""5.6 Generation of Solitons"" ""5.7 Nondegenerate Ground-State Polymers: Polarons"" |
Record Nr. | UNINA-9910816704503321 |
Roth Siegmar
![]() |
||
Weinheim an der Bergstrasse, Germany : , : Wiley-VCH Verlag GmbH & Co. KGaA, , 2015 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
One-dimensional metals [[electronic resource] ] : conjugated polymers, organic crystals, carbon nanotubes |
Autore | Roth S (Siegmar), <1940-> |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | Weinheim, : Wiley-VCH, c2004 |
Descrizione fisica | 1 online resource (267 p.) |
Disciplina |
537.6
537.6/2 537.62 |
Altri autori (Persone) | CarrollDavid L (David Loren) |
Soggetto topico |
One-dimensional conductors
Conducting polymers Superconductivity Molecular electronics |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-52074-4
9786610520749 3-527-60580-0 3-527-60232-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
One-Dimensional Metals; Table of Contents; Preface and Acknowledgments; Preface to the Second Edition; 1 Introduction; 1.1 Dimensionality; 1.2 Approaching One-dimensionality from Outside and Inside; 1.3 Dimensionality of Carbon Solids; 1.3.1 Three-dimensional Carbon: Diamond; 1.3.2 Two-dimensional Carbon: Graphite; 1.3.3 One-dimensional Carbon: Cumulene, Polycarbyne, Polyene; 1.3.4 Zero-dimensional Carbon: Fullerene; 1.3.5 What About Something in Between?; 1.4 Peculiarities of One-dimensional Systems; 2 One-dimensional Substances; 2.1 A15 Compounds; 2.2 Krogmann Salts; 2.3 Alchemists' Gold
2.4 Bechgaard Salts and Other Charge-transfer Compounds2.5 Polysulfurnitride; 2.6 Phthalocyanines and Other Macrocycles; 2.7 Transition Metal Chalcogenides and Halides; 2.8 Conducting Polymers; 2.9 Halogen-bridged Mixed-valence Transition Metal Complexes; 2.10 Miscellaneous; 2.10.1 Poly-deckers; 2.10.2 Polycarbenes; 2.11 Isolated Nanowires; 2.11.1 Templates and Filler Pores; 2.11.2 Asymmetric Growth using Catalysts; 2.11.3 Nanotubes; 2.11.4 Inorganic Semiconductor Quantum Wires; 2.11.5 Metal Nanowires; 3 One-dimensional Solid-State Physics; 3.1 Crystal Lattice and Translation Symmetry 3.1.1 Classifying the Lattice3.1.2 Using a Coordinate System; 3.1.3 The One-dimensional Lattice; 3.2 Reciprocal Lattice, Reciprocal Space; 3.2.1 Describing Objects by Momentum and Energy; 3.2.2 Constructing the Reciprocal Lattice; 3.2.3 Application to One Dimension; 3.3 Electrons and Phonons in a Crystal, Dispersion Relations; 3.3.1 Crystal Vibrations and Phonons; 3.3.2 Phonons and Electrons are Different; 3.3.3 Nearly Free Electron Model, Energy Bands, Energy Gap, Density of States; 3.4 A Simple One-dimensional System; 4 Electron-Phonon Coupling, Peierls Transition 5 Conducting Polymers: Solitons and Polarons5.1 General Remarks on Conducting Polymers; 5.2 Conjugated Double Bonds; 5.3 Conjugational Defects; 5.4 Solitons; 5.5 Generation of Solitons; 5.6 Nondegenerate Ground State Polymers: Polarons; 5.7 Fractional Charges; 5.8 Soliton Lifetime; 6 Conducting Polymers: Conductivity; 6.1 General Remarks on Conductivity; 6.2 Measuring Conductivities; 6.3 Conductivity in One Dimension: Localization; 6.4 Conductivity and Solitons; 6.5 Experimental Data; 6.6 Hopping Conductivity; 6.7 Conductivity of Highly Conducting Polymers; 7 Superconductivity 7.1 Basic Phenomena7.2 Measuring Superconductivity; 7.3 Applications of Superconductivity; 7.4 Superconductivity and Dimensionality; 7.5 Organic Superconductors; 7.5.1 One-dimensional Organic Superconductors; 7.5.2 Two-dimensional Organic Superconductors; 7.5.3 Three-dimensional Organic Superconductors; 7.6 Future Prospects; 8 Charge Density Waves; 8.1 Introduction; 8.2 Coulomb Interaction, 4k(F) Charge Density Waves, Spin Peierls Waves, Spin Density Waves; 8.3 Phonon Dispersion Relation, Phase, and Amplitude Mode in Charge Density Wave Excitations 8.4 Electronic Structure, Peierls-Fröhlich Mechanism of Superconductivity |
Record Nr. | UNINA-9910146236503321 |
Roth S (Siegmar), <1940->
![]() |
||
Weinheim, : Wiley-VCH, c2004 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
One-dimensional metals [[electronic resource] ] : conjugated polymers, organic crystals, carbon nanotubes |
Autore | Roth S (Siegmar), <1940-> |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | Weinheim, : Wiley-VCH, c2004 |
Descrizione fisica | 1 online resource (267 p.) |
Disciplina |
537.6
537.6/2 537.62 |
Altri autori (Persone) | CarrollDavid L (David Loren) |
Soggetto topico |
One-dimensional conductors
Conducting polymers Superconductivity Molecular electronics |
ISBN |
1-280-52074-4
9786610520749 3-527-60580-0 3-527-60232-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
One-Dimensional Metals; Table of Contents; Preface and Acknowledgments; Preface to the Second Edition; 1 Introduction; 1.1 Dimensionality; 1.2 Approaching One-dimensionality from Outside and Inside; 1.3 Dimensionality of Carbon Solids; 1.3.1 Three-dimensional Carbon: Diamond; 1.3.2 Two-dimensional Carbon: Graphite; 1.3.3 One-dimensional Carbon: Cumulene, Polycarbyne, Polyene; 1.3.4 Zero-dimensional Carbon: Fullerene; 1.3.5 What About Something in Between?; 1.4 Peculiarities of One-dimensional Systems; 2 One-dimensional Substances; 2.1 A15 Compounds; 2.2 Krogmann Salts; 2.3 Alchemists' Gold
2.4 Bechgaard Salts and Other Charge-transfer Compounds2.5 Polysulfurnitride; 2.6 Phthalocyanines and Other Macrocycles; 2.7 Transition Metal Chalcogenides and Halides; 2.8 Conducting Polymers; 2.9 Halogen-bridged Mixed-valence Transition Metal Complexes; 2.10 Miscellaneous; 2.10.1 Poly-deckers; 2.10.2 Polycarbenes; 2.11 Isolated Nanowires; 2.11.1 Templates and Filler Pores; 2.11.2 Asymmetric Growth using Catalysts; 2.11.3 Nanotubes; 2.11.4 Inorganic Semiconductor Quantum Wires; 2.11.5 Metal Nanowires; 3 One-dimensional Solid-State Physics; 3.1 Crystal Lattice and Translation Symmetry 3.1.1 Classifying the Lattice3.1.2 Using a Coordinate System; 3.1.3 The One-dimensional Lattice; 3.2 Reciprocal Lattice, Reciprocal Space; 3.2.1 Describing Objects by Momentum and Energy; 3.2.2 Constructing the Reciprocal Lattice; 3.2.3 Application to One Dimension; 3.3 Electrons and Phonons in a Crystal, Dispersion Relations; 3.3.1 Crystal Vibrations and Phonons; 3.3.2 Phonons and Electrons are Different; 3.3.3 Nearly Free Electron Model, Energy Bands, Energy Gap, Density of States; 3.4 A Simple One-dimensional System; 4 Electron-Phonon Coupling, Peierls Transition 5 Conducting Polymers: Solitons and Polarons5.1 General Remarks on Conducting Polymers; 5.2 Conjugated Double Bonds; 5.3 Conjugational Defects; 5.4 Solitons; 5.5 Generation of Solitons; 5.6 Nondegenerate Ground State Polymers: Polarons; 5.7 Fractional Charges; 5.8 Soliton Lifetime; 6 Conducting Polymers: Conductivity; 6.1 General Remarks on Conductivity; 6.2 Measuring Conductivities; 6.3 Conductivity in One Dimension: Localization; 6.4 Conductivity and Solitons; 6.5 Experimental Data; 6.6 Hopping Conductivity; 6.7 Conductivity of Highly Conducting Polymers; 7 Superconductivity 7.1 Basic Phenomena7.2 Measuring Superconductivity; 7.3 Applications of Superconductivity; 7.4 Superconductivity and Dimensionality; 7.5 Organic Superconductors; 7.5.1 One-dimensional Organic Superconductors; 7.5.2 Two-dimensional Organic Superconductors; 7.5.3 Three-dimensional Organic Superconductors; 7.6 Future Prospects; 8 Charge Density Waves; 8.1 Introduction; 8.2 Coulomb Interaction, 4k(F) Charge Density Waves, Spin Peierls Waves, Spin Density Waves; 8.3 Phonon Dispersion Relation, Phase, and Amplitude Mode in Charge Density Wave Excitations 8.4 Electronic Structure, Peierls-Fröhlich Mechanism of Superconductivity |
Record Nr. | UNINA-9910830823603321 |
Roth S (Siegmar), <1940->
![]() |
||
Weinheim, : Wiley-VCH, c2004 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
One-dimensional metals [[electronic resource] ] : conjugated polymers, organic crystals, carbon nanotubes |
Autore | Roth S (Siegmar), <1940-> |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | Weinheim, : Wiley-VCH, c2004 |
Descrizione fisica | 1 online resource (267 p.) |
Disciplina |
537.6
537.6/2 537.62 |
Altri autori (Persone) | CarrollDavid L (David Loren) |
Soggetto topico |
One-dimensional conductors
Conducting polymers Superconductivity Molecular electronics |
ISBN |
1-280-52074-4
9786610520749 3-527-60580-0 3-527-60232-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
One-Dimensional Metals; Table of Contents; Preface and Acknowledgments; Preface to the Second Edition; 1 Introduction; 1.1 Dimensionality; 1.2 Approaching One-dimensionality from Outside and Inside; 1.3 Dimensionality of Carbon Solids; 1.3.1 Three-dimensional Carbon: Diamond; 1.3.2 Two-dimensional Carbon: Graphite; 1.3.3 One-dimensional Carbon: Cumulene, Polycarbyne, Polyene; 1.3.4 Zero-dimensional Carbon: Fullerene; 1.3.5 What About Something in Between?; 1.4 Peculiarities of One-dimensional Systems; 2 One-dimensional Substances; 2.1 A15 Compounds; 2.2 Krogmann Salts; 2.3 Alchemists' Gold
2.4 Bechgaard Salts and Other Charge-transfer Compounds2.5 Polysulfurnitride; 2.6 Phthalocyanines and Other Macrocycles; 2.7 Transition Metal Chalcogenides and Halides; 2.8 Conducting Polymers; 2.9 Halogen-bridged Mixed-valence Transition Metal Complexes; 2.10 Miscellaneous; 2.10.1 Poly-deckers; 2.10.2 Polycarbenes; 2.11 Isolated Nanowires; 2.11.1 Templates and Filler Pores; 2.11.2 Asymmetric Growth using Catalysts; 2.11.3 Nanotubes; 2.11.4 Inorganic Semiconductor Quantum Wires; 2.11.5 Metal Nanowires; 3 One-dimensional Solid-State Physics; 3.1 Crystal Lattice and Translation Symmetry 3.1.1 Classifying the Lattice3.1.2 Using a Coordinate System; 3.1.3 The One-dimensional Lattice; 3.2 Reciprocal Lattice, Reciprocal Space; 3.2.1 Describing Objects by Momentum and Energy; 3.2.2 Constructing the Reciprocal Lattice; 3.2.3 Application to One Dimension; 3.3 Electrons and Phonons in a Crystal, Dispersion Relations; 3.3.1 Crystal Vibrations and Phonons; 3.3.2 Phonons and Electrons are Different; 3.3.3 Nearly Free Electron Model, Energy Bands, Energy Gap, Density of States; 3.4 A Simple One-dimensional System; 4 Electron-Phonon Coupling, Peierls Transition 5 Conducting Polymers: Solitons and Polarons5.1 General Remarks on Conducting Polymers; 5.2 Conjugated Double Bonds; 5.3 Conjugational Defects; 5.4 Solitons; 5.5 Generation of Solitons; 5.6 Nondegenerate Ground State Polymers: Polarons; 5.7 Fractional Charges; 5.8 Soliton Lifetime; 6 Conducting Polymers: Conductivity; 6.1 General Remarks on Conductivity; 6.2 Measuring Conductivities; 6.3 Conductivity in One Dimension: Localization; 6.4 Conductivity and Solitons; 6.5 Experimental Data; 6.6 Hopping Conductivity; 6.7 Conductivity of Highly Conducting Polymers; 7 Superconductivity 7.1 Basic Phenomena7.2 Measuring Superconductivity; 7.3 Applications of Superconductivity; 7.4 Superconductivity and Dimensionality; 7.5 Organic Superconductors; 7.5.1 One-dimensional Organic Superconductors; 7.5.2 Two-dimensional Organic Superconductors; 7.5.3 Three-dimensional Organic Superconductors; 7.6 Future Prospects; 8 Charge Density Waves; 8.1 Introduction; 8.2 Coulomb Interaction, 4k(F) Charge Density Waves, Spin Peierls Waves, Spin Density Waves; 8.3 Phonon Dispersion Relation, Phase, and Amplitude Mode in Charge Density Wave Excitations 8.4 Electronic Structure, Peierls-Fröhlich Mechanism of Superconductivity |
Record Nr. | UNINA-9910841310003321 |
Roth S (Siegmar), <1940->
![]() |
||
Weinheim, : Wiley-VCH, c2004 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
One-dimensional nanostructures [[electronic resource] ] : principles and applications / / edited by Tianyou Zhai, Jiannian Yao |
Autore | Zhai Tianyou <1980-> |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley, 2013 |
Descrizione fisica | 1 online resource (610 p.) |
Disciplina | 621.3815 |
Altri autori (Persone) |
ZhaiTianyou <1980->
YaoJiannian <1953-> |
Soggetto topico |
Nanowires
Semiconductors - Materials One-dimensional conductors Nanostructured materials |
ISBN |
1-118-31034-9
1-283-91714-9 1-118-31032-2 |
Classificazione | TEC027000 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
ONE-DIMENSIONALNANOSTRUCTURES; CONTENTS; Foreword; Preface; Contributors; 1 One-Dimensional Semiconductor Nanostructure Growth with Templates; 1.1 Introduction; 1.2 Anodic Aluminum Oxide (AAO) as Templates; 1.2.1 Synthesis of Self-Organized AAO Membrane; 1.2.2 Synthesis of Polycrystalline Si Nanotubes; 1.2.3 AAO as Template for Si Nanowire Epitaxy; 1.3 Conclusion and Outlook; Acknowledgments; References; 2 Metal-Ligand Systems for Construction of One-Dimensional Nanostructures; 2.1 Introduction; 2.2 Microstructures Based on 1D Coordination Polymers; 2.2.1 Preparation Methods; 2.2.2 Structures
2.2.3 Shape and Size Control2.2.4 Methods for Study of Microstructures; 2.2.5 Formation Mechanisms; 2.2.6 Properties and Applications; 2.3 Bundles and Single Molecules on Surfaces Based on 1D Coordination Polymers; 2.3.1 Isolation Methods and Morphological Characterization; 2.3.2 Tools for the Studies at the Molecular Level; 2.3.3 Properties Studied at Single-Molecule Level; 2.4 Conclusion and Outlook; Acknowledgments; References; 3 Supercritical Fluid-Liquid-Solid (SFLS) Growth of Semiconductor Nanowires; 3.1 Introduction; 3.2 The SFLS Growth Mechanism 3.2.1 Supercritical Fluids as a Reaction Medium for VLS-Like Nanowire Growth3.2.2 SFLS-Grown Nanowires; 3.3 Properties and Applications of SFLS-Grown Nanowires; 3.3.1 Mechanical Properties; 3.3.2 Printed Nanowire Field-Effect Transistors; 3.3.3 Silicon-Nanowire-Based Lithium Ion Battery Anodes; 3.3.4 Semiconductor Nanowire Fabric; 3.3.5 Other Applications; 3.4 Conclusion and Outlook; Acknowledgments; References; 4 Colloidal Semiconductor Nanowires; 4.1 Introduction; 4.2 Theoretical Calculations; 4.2.1 Effective Mass Multiband Method (EMMM); 4.2.2 Empirical Pseudopotential Method (EPM) 4.2.3 Charge Patching Method (CPM)4.3 Synthesis of Colloidal Semiconductor Nanowires; 4.3.1 Oriented Attachment; 4.3.2 Template Strategy; 4.3.3 Solution-Liquid-Solid Growth; 4.4 Properties of Colloidal Semiconductor Nanowires; 4.4.1 Optical Properties of Semiconductor Nanowires; 4.4.2 Electronic Properties of Semiconductor Nanowires; 4.4.3 Magnetic Properties of Semiconductor Nanowires; 4.5 Applications of Colloidal Semiconductor Nanowires; 4.5.1 Semiconductor Nanowires for Energy Conversion; 4.5.2 Semiconductor Nanowires in Life Sciences; 4.6 Conclusion and Outlook; Acknowledgments References5 Core-Shell Effect on Nucleation and Growth of Epitaxial Silicide in Nanowire of Silicon; 5.1 Introduction; 5.2 Core-Shell Effects on Materials; 5.3 Nucleation and Growth of Silicides in Silicon Nanowires; 5.3.1 Nanoscale Silicide Formation by Point Contact Reaction; 5.3.2 Supply Limit Reaction in Point Contact Reactions; 5.3.3 Repeating Event of Nucleation; 5.4 Core-Shell Effect on Nucleation of Nanoscale Silicides; 5.4.1 Introduction to Solid-State Nucleation; 5.4.2 Stepflow of Si Nanowire Growth at Silicide/Si Interface 5.4.3 Observation of Homogeneous Nucleation in Silicide Epitaxial Growth |
Record Nr. | UNINA-9910141414703321 |
Zhai Tianyou <1980->
![]() |
||
Hoboken, N.J., : Wiley, 2013 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
One-dimensional nanostructures [[electronic resource] ] : principles and applications / / edited by Tianyou Zhai, Jiannian Yao |
Autore | Zhai Tianyou <1980-> |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley, 2013 |
Descrizione fisica | 1 online resource (610 p.) |
Disciplina | 621.3815 |
Altri autori (Persone) |
ZhaiTianyou <1980->
YaoJiannian <1953-> |
Soggetto topico |
Nanowires
Semiconductors - Materials One-dimensional conductors Nanostructured materials |
ISBN |
1-118-31034-9
1-283-91714-9 1-118-31032-2 |
Classificazione | TEC027000 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
ONE-DIMENSIONALNANOSTRUCTURES; CONTENTS; Foreword; Preface; Contributors; 1 One-Dimensional Semiconductor Nanostructure Growth with Templates; 1.1 Introduction; 1.2 Anodic Aluminum Oxide (AAO) as Templates; 1.2.1 Synthesis of Self-Organized AAO Membrane; 1.2.2 Synthesis of Polycrystalline Si Nanotubes; 1.2.3 AAO as Template for Si Nanowire Epitaxy; 1.3 Conclusion and Outlook; Acknowledgments; References; 2 Metal-Ligand Systems for Construction of One-Dimensional Nanostructures; 2.1 Introduction; 2.2 Microstructures Based on 1D Coordination Polymers; 2.2.1 Preparation Methods; 2.2.2 Structures
2.2.3 Shape and Size Control2.2.4 Methods for Study of Microstructures; 2.2.5 Formation Mechanisms; 2.2.6 Properties and Applications; 2.3 Bundles and Single Molecules on Surfaces Based on 1D Coordination Polymers; 2.3.1 Isolation Methods and Morphological Characterization; 2.3.2 Tools for the Studies at the Molecular Level; 2.3.3 Properties Studied at Single-Molecule Level; 2.4 Conclusion and Outlook; Acknowledgments; References; 3 Supercritical Fluid-Liquid-Solid (SFLS) Growth of Semiconductor Nanowires; 3.1 Introduction; 3.2 The SFLS Growth Mechanism 3.2.1 Supercritical Fluids as a Reaction Medium for VLS-Like Nanowire Growth3.2.2 SFLS-Grown Nanowires; 3.3 Properties and Applications of SFLS-Grown Nanowires; 3.3.1 Mechanical Properties; 3.3.2 Printed Nanowire Field-Effect Transistors; 3.3.3 Silicon-Nanowire-Based Lithium Ion Battery Anodes; 3.3.4 Semiconductor Nanowire Fabric; 3.3.5 Other Applications; 3.4 Conclusion and Outlook; Acknowledgments; References; 4 Colloidal Semiconductor Nanowires; 4.1 Introduction; 4.2 Theoretical Calculations; 4.2.1 Effective Mass Multiband Method (EMMM); 4.2.2 Empirical Pseudopotential Method (EPM) 4.2.3 Charge Patching Method (CPM)4.3 Synthesis of Colloidal Semiconductor Nanowires; 4.3.1 Oriented Attachment; 4.3.2 Template Strategy; 4.3.3 Solution-Liquid-Solid Growth; 4.4 Properties of Colloidal Semiconductor Nanowires; 4.4.1 Optical Properties of Semiconductor Nanowires; 4.4.2 Electronic Properties of Semiconductor Nanowires; 4.4.3 Magnetic Properties of Semiconductor Nanowires; 4.5 Applications of Colloidal Semiconductor Nanowires; 4.5.1 Semiconductor Nanowires for Energy Conversion; 4.5.2 Semiconductor Nanowires in Life Sciences; 4.6 Conclusion and Outlook; Acknowledgments References5 Core-Shell Effect on Nucleation and Growth of Epitaxial Silicide in Nanowire of Silicon; 5.1 Introduction; 5.2 Core-Shell Effects on Materials; 5.3 Nucleation and Growth of Silicides in Silicon Nanowires; 5.3.1 Nanoscale Silicide Formation by Point Contact Reaction; 5.3.2 Supply Limit Reaction in Point Contact Reactions; 5.3.3 Repeating Event of Nucleation; 5.4 Core-Shell Effect on Nucleation of Nanoscale Silicides; 5.4.1 Introduction to Solid-State Nucleation; 5.4.2 Stepflow of Si Nanowire Growth at Silicide/Si Interface 5.4.3 Observation of Homogeneous Nucleation in Silicide Epitaxial Growth |
Record Nr. | UNINA-9910807194203321 |
Zhai Tianyou <1980->
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Hoboken, N.J., : Wiley, 2013 | ||
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Lo trovi qui: Univ. Federico II | ||
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Quantum physics in one dimension / Thierry Giamarchi |
Autore | Giamarchi, Thierry |
Pubbl/distr/stampa | Oxford : Clarendon |
Descrizione fisica | xvi, 424 p. : ill. ; 24 cm |
Disciplina | 530.12 |
Collana |
International series of monographs on physics (Oxford, England) ; 121
The international series of monographs on physics ; 121 |
Soggetto topico |
Quantum theory
One-dimensional conductors |
ISBN | 9780198525004 |
Classificazione |
LC QC174.13
53.1.4 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNISALENTO-991004026739707536 |
Giamarchi, Thierry
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Oxford : Clarendon | ||
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Lo trovi qui: Univ. del Salento | ||
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Synthetic metals [[e-journal]] |
Pubbl/distr/stampa | Lausanne, : Elsevier Sequoia, 1979- |
Disciplina | 546.6 |
Soggetto topico |
Transition metal compounds
Graphite One-dimensional conductors |
Soggetto genere / forma | Periodicals. |
ISSN | 1879-3290 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Periodico |
Lingua di pubblicazione | eng |
Record Nr. | UNISA-996214880303316 |
Lausanne, : Elsevier Sequoia, 1979- | ||
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Lo trovi qui: Univ. di Salerno | ||
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Synthetic metals [[e-journal]] |
Pubbl/distr/stampa | Lausanne, : Elsevier Sequoia, 1979- |
Disciplina | 546.6 |
Soggetto topico |
Transition metal compounds
Graphite One-dimensional conductors |
Soggetto genere / forma | Periodicals. |
ISSN | 1879-3290 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Periodico |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-9910144156903321 |
Lausanne, : Elsevier Sequoia, 1979- | ||
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Lo trovi qui: Univ. Federico II | ||
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