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Univ. Federico II (29)

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Chemistry of nanocrystalline oxide materials : combustion synthesis, properties and applications / / K.C. Patil ... [et al.]

Hackensack, NJ, : World Scientific, c2008

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Electron transport in nanostructures and mesoscopic devices [[electronic resource] /] / Thierry Ouisse

Ouisse Thierry

London, : ISTE

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Electron transport in nanostructures and mesoscopic devices [[electronic resource] /] / Thierry Ouisse

Ouisse Thierry

London, : ISTE

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Electron transport in nanostructures and mesoscopic devices / / Thierry Ouisse

Ouisse Thierry

London, : ISTE

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Handbook of hydrogen storage [[electronic resource] ] : new materials for future energy storage / / edited by Michael Hirscher

Weinheim, : Wiley-VCH Verlag GmbH & Co., c2010

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Handbook of hydrogen storage [[electronic resource] ] : new materials for future energy storage / / edited by Michael Hirscher

Weinheim, : Wiley-VCH Verlag GmbH & Co., c2010

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Handbook of hydrogen storage : new materials for future energy storage / / edited by Michael Hirscher

Weinheim, : Wiley-VCH Verlag GmbH & Co., c2010

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Inorganic and metallic nanotubular materials : recent technologies and applications : with 172 figures / / Tsuyoshi Kijima, (ed.)

New York, : Springer, 2010

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Inorganic micro- and nanomaterials : synthesis and characterization / / edited by Angela Dibenedetto, Michele Aresta

Berlin ; ; Boston : , : Walter de Gruyter GmbH & Company, , [2013]

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Inorganic micro- and nanomaterials : synthesis and characterization / / edited by Angela Dibenedetto, Michele Aresta

Berlin ; ; Boston : , : Walter de Gruyter GmbH & Company, , [2013]

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Electronic books. (7)

Pubbl/distr/stampa	Hackensack, NJ, : World Scientific, c2008
Descrizione fisica	1 online resource (362 p.)
Disciplina	620.11 620.11299
Altri autori (Persone)	PatilK. C
Soggetto topico	Metallic oxides Nanocrystals Nanostructured materials
ISBN	9789814471732 9814471739 9789812793157 9812793151
Classificazione	VE 9850
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Contents; Foreword; Preface; 1. Introduction; 1.1 General; 1.2 Preparative Methods; 1.3 Scope of the Book; References; 2. Combustible Solid Precursors toNanocrystallineOxideMaterials; 2.1 Introduction; 2.2 Combustible Metal Hydrazine and Metal Hydrazine Carboxylate Complexes; Part I: Metal Hydrazine Carboxylates: Precursors to Simple Metal Oxides; 2.3 Preparation of Metal Formate, Acetate, Oxalate, and Hydrazine Carboxylates; 2.3.1 Thermal Analysis and Combustion of Metal Hydrazine Carboxylates; Part II: Single Source Precursors to Mixed Metal Oxides; 2.4 Mixed Metal Oxides 2.4.1 Mixed Metal Acetate and Oxalate Hydrazinates: Precursors to Cobaltites2.4.2 Mixed Metal Oxalate Hydrazinates: Precursors to Spinel Ferrites; 2.4.3 Mixed Metal Oxalate Hydrates: Precursors to Metal Titanates; 2.5 Mixed Metal Hydrazinium Hydrazine Carboxylates; 2.5.1 Mixed Metal Hydrazinium Hydrazine Carboxylates: Precursors to Nano-Cobaltites and Ferrites; 2.5.2 Mixed Metal Hydrazinium Hydrazine Carboxylates: Precursors to Mixed Ferrites; 2.5.3 Mixed Metal Hydrazinium Hydrazine Carboxylates: Precursors to Manganites; 2.6 Concluding Remarks; References 3. Solution Combustion Synthesis of Oxide Materials3.1 Introduction; 3.2 Solution Combustion Synthesis (SCS); 3.2.1 Synthesis of Alumina; 3.2.2 Mechanism of Aluminum Nitrate - Urea Combustion Reaction; 3.2.3 Thermodynamic Calculation; 3.3 Role of Fuels; 3.4 A Recipe for the Synthesis of Various Classes of Oxides; 3.4.1 Recipe for Nanomaterials; 3.5 Salient Features of Solution Combustion Method; References; 4. Alumina and Related Oxide Materials; 4.1 Introduction; 4.2 Alumina and Related Oxide Materials; 4.3 α-Alumina; 4.4 Metal Aluminates (MAl2O4); 4.5 Rare Earth Orthoaluminates (LnAlO3) 4.6 Garnets4.7 Aluminum Borate; 4.8 Tialite (β-Al2TiO5); 4.9 Aluminum Phosphate; 4.10 Alumina Composites; 4.10.1 Al2O3 · SiO2 System: Mullite; 4.10.2 Al2O3 · SiO2 System: Cordierite; 4.10.3 Al2O3 · Si3N4 System: SiAlON; 4.11 Alumina Nanocomposites; 4.11.1 Nanocatalysts,Dispersion ofNano-metals (Ag, Au, Pd, and Pt) in Al2O3; 4.12 Nanopigments; 4.12.1 Cobalt-Based Blue Alumina and Aluminates; 4.12.2 Chromium-Doped Pink Alumina (Cr3+/Al2O3): Ruby; 4.12.3 Chromium-Doped Aluminates and Orthoaluminates (Cr3+/MAl2O4(M = Mg & Zn)) and LaAlO3); 4.13 Nanophosphors 4.13.1 Phosphor Materials (Luminescence in Aluminum Oxide Hosts)4.14 Concluding Remarks; References; 5. Nano-Ceria and Metal-Ion-Substituted Ceria; 5.1 Introduction; 5.2 Synthesis and Properties of Nano-Ceria; 5.3 Synthesis of Metal-Ion-Substituted Ceria; 5.4 Characterization of Metal-Ion-Substituted Ceria; 5.5 Oxygen Storage Materials; 5.6 Metal-Ion-Substituted Ceria as Nanocatalysts; 5.6.1 Ce1.xPdxO2.δ as a Three-Way Catalyst; 5.6.2 Ce1-xPtxO2-; 5.6.3 Ce1.xRhxO2.δ; 5.6.4 Bimetal Ionic Catalysts (Ce1.xPtx/2Rhx/2O2.δ); 5.7 Concluding Remarks; References; 6. Nanocrystalline Fe2O3 and Ferrites 6.1 Magnetic Materials
Record Nr.	UNINA-9911006625203321

Autore	Ouisse Thierry
Pubbl/distr/stampa	London, : ISTE
Descrizione fisica	1 online resource (399 p.)
Disciplina	530.4/1 620.5
Collana	ISTE
Soggetto topico	Electron transport Nanostructured materials - Electric properties Nanostructures - Electric properties Mesoscopic phenomena (Physics)
Soggetto genere / forma	Electronic books.
ISBN	1-282-16520-8 9786612165207 0-470-61139-1 0-470-39400-5
Classificazione	VE 9850
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Electron Transport in Nanostructures and Mesoscopic Devices; Table of Contents; Chapter 1. Introduction; 1.1. Introduction and preliminary warning; 1.2. Bibliography; Chapter 2. Some Useful Concepts and Reminders; 2.1. Quantum mechanics and the Schrödinger equation; 2.1.1. A more than brief introduction; 2.1.2. The postulates of quantum mechanics; 2.1.3. Essential properties of observables; 2.1.4. Momentum operator; 2.1.5. Stationary states; 2.1.6. Probability current; 2.1.7. Electrons in vacuum and group velocity; 2.2. Energy band structure in a periodic lattice 2.3. Semi-classical approximation2.4. Electrons and holes; 2.5. Semiconductor heterostructure; 2.6. Quantum well; 2.6.1. 1D case; 2.6.2. Coupled quantum wells; 2.6.3. Quantum-confined Stark effect; 2.7. Tight-binding approximation; 2.8. Effective mass approximation; 2.8.1. Wannier functions; 2.8.2. Effective mass Schrödinger equation; 2.9. How good is the effective mass approximation in a confined structure?; 2.10. Density of states; 2.10.1. 3D case; 2.10.2. 2D case; 2.10.3. 1D case; 2.10.4. Summary; 2.11. Fermi-Dirac statistics; 2.12. Examples of 2D systems 2.13. Characteristic lengths and mesoscopic nature of electron transport2.14. Mobility: Drude model; 2.15. Conduction in degenerate materials; 2.16. Einstein relationship; 2.17. Low magnetic field transport; 2.18. High magnetic field transport; 2.18.1. Introduction; 2.18.2. Some reminders about the particle Hamiltonian in the presence of an electromagnetic field; 2.18.3. Action of a magnetic field (classical); 2.18.4. High magnetic field transport; 2.19. Exercises; 2.19.1. Exercise; 2.19.2. Exercise; 2.19.3. Exercise; 2.19.4. Exercise; 2.20. Bibliography Chapter 3. Ballistic Transport and Transmission Conductance3.1. Conductance of a ballistic conductor; 3.2. Connection between 2D and 1D systems; 3.3. A classical analogy; 3.4. Transmission conductance: Landauer's formula; 3.5. What if the device length really does go down to zero?; 3.6. A smart experiment which shows you everything; 3.7. Relationship between the Landauer formula and Ohm's law; 3.8. Dissipation with a scatterer; 3.9. Voltage probe measurements; 3.10. Comment about the assumption that T is constant; 3.11. Generalization of Landauer's formula: Büttiker's formula 3.11.1. Büttiker's formula3.11.2. Three-terminal device; 3.11.3. Four-terminal device; 3.12. Non-zero temperature; 3.12.1. Large applied bias μ1-μ2>>0; 3.12.2. Incoherent states; 3.12.3. Coherent states; 3.12.4. Physical parameters included in the transmission probability; 3.12.5. Linear response (μ1-μ2 4.1. Scattering matrix or S-matrix
Record Nr.	UNINA-9910139492503321

Autore	Ouisse Thierry
Pubbl/distr/stampa	London, : ISTE
Descrizione fisica	1 online resource (399 p.)
Disciplina	530.4/1 620.5
Collana	ISTE
Soggetto topico	Electron transport Nanostructured materials - Electric properties Nanostructures - Electric properties Mesoscopic phenomena (Physics)
ISBN	1-282-16520-8 9786612165207 0-470-61139-1 0-470-39400-5
Classificazione	VE 9850
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Electron Transport in Nanostructures and Mesoscopic Devices; Table of Contents; Chapter 1. Introduction; 1.1. Introduction and preliminary warning; 1.2. Bibliography; Chapter 2. Some Useful Concepts and Reminders; 2.1. Quantum mechanics and the Schrödinger equation; 2.1.1. A more than brief introduction; 2.1.2. The postulates of quantum mechanics; 2.1.3. Essential properties of observables; 2.1.4. Momentum operator; 2.1.5. Stationary states; 2.1.6. Probability current; 2.1.7. Electrons in vacuum and group velocity; 2.2. Energy band structure in a periodic lattice 2.3. Semi-classical approximation2.4. Electrons and holes; 2.5. Semiconductor heterostructure; 2.6. Quantum well; 2.6.1. 1D case; 2.6.2. Coupled quantum wells; 2.6.3. Quantum-confined Stark effect; 2.7. Tight-binding approximation; 2.8. Effective mass approximation; 2.8.1. Wannier functions; 2.8.2. Effective mass Schrödinger equation; 2.9. How good is the effective mass approximation in a confined structure?; 2.10. Density of states; 2.10.1. 3D case; 2.10.2. 2D case; 2.10.3. 1D case; 2.10.4. Summary; 2.11. Fermi-Dirac statistics; 2.12. Examples of 2D systems 2.13. Characteristic lengths and mesoscopic nature of electron transport2.14. Mobility: Drude model; 2.15. Conduction in degenerate materials; 2.16. Einstein relationship; 2.17. Low magnetic field transport; 2.18. High magnetic field transport; 2.18.1. Introduction; 2.18.2. Some reminders about the particle Hamiltonian in the presence of an electromagnetic field; 2.18.3. Action of a magnetic field (classical); 2.18.4. High magnetic field transport; 2.19. Exercises; 2.19.1. Exercise; 2.19.2. Exercise; 2.19.3. Exercise; 2.19.4. Exercise; 2.20. Bibliography Chapter 3. Ballistic Transport and Transmission Conductance3.1. Conductance of a ballistic conductor; 3.2. Connection between 2D and 1D systems; 3.3. A classical analogy; 3.4. Transmission conductance: Landauer's formula; 3.5. What if the device length really does go down to zero?; 3.6. A smart experiment which shows you everything; 3.7. Relationship between the Landauer formula and Ohm's law; 3.8. Dissipation with a scatterer; 3.9. Voltage probe measurements; 3.10. Comment about the assumption that T is constant; 3.11. Generalization of Landauer's formula: Büttiker's formula 3.11.1. Büttiker's formula3.11.2. Three-terminal device; 3.11.3. Four-terminal device; 3.12. Non-zero temperature; 3.12.1. Large applied bias μ1-μ2>>0; 3.12.2. Incoherent states; 3.12.3. Coherent states; 3.12.4. Physical parameters included in the transmission probability; 3.12.5. Linear response (μ1-μ2 4.1. Scattering matrix or S-matrix
Record Nr.	UNINA-9910830043003321

Autore	Ouisse Thierry
Pubbl/distr/stampa	London, : ISTE
Descrizione fisica	1 online resource (399 p.)
Disciplina	530.4/1
Collana	ISTE
Soggetto topico	Electron transport Nanostructured materials - Electric properties Nanostructures - Electric properties Mesoscopic phenomena (Physics)
ISBN	1-282-16520-8 9786612165207 0-470-61139-1 0-470-39400-5
Classificazione	VE 9850
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Electron Transport in Nanostructures and Mesoscopic Devices; Table of Contents; Chapter 1. Introduction; 1.1. Introduction and preliminary warning; 1.2. Bibliography; Chapter 2. Some Useful Concepts and Reminders; 2.1. Quantum mechanics and the Schrödinger equation; 2.1.1. A more than brief introduction; 2.1.2. The postulates of quantum mechanics; 2.1.3. Essential properties of observables; 2.1.4. Momentum operator; 2.1.5. Stationary states; 2.1.6. Probability current; 2.1.7. Electrons in vacuum and group velocity; 2.2. Energy band structure in a periodic lattice 2.3. Semi-classical approximation2.4. Electrons and holes; 2.5. Semiconductor heterostructure; 2.6. Quantum well; 2.6.1. 1D case; 2.6.2. Coupled quantum wells; 2.6.3. Quantum-confined Stark effect; 2.7. Tight-binding approximation; 2.8. Effective mass approximation; 2.8.1. Wannier functions; 2.8.2. Effective mass Schrödinger equation; 2.9. How good is the effective mass approximation in a confined structure?; 2.10. Density of states; 2.10.1. 3D case; 2.10.2. 2D case; 2.10.3. 1D case; 2.10.4. Summary; 2.11. Fermi-Dirac statistics; 2.12. Examples of 2D systems 2.13. Characteristic lengths and mesoscopic nature of electron transport2.14. Mobility: Drude model; 2.15. Conduction in degenerate materials; 2.16. Einstein relationship; 2.17. Low magnetic field transport; 2.18. High magnetic field transport; 2.18.1. Introduction; 2.18.2. Some reminders about the particle Hamiltonian in the presence of an electromagnetic field; 2.18.3. Action of a magnetic field (classical); 2.18.4. High magnetic field transport; 2.19. Exercises; 2.19.1. Exercise; 2.19.2. Exercise; 2.19.3. Exercise; 2.19.4. Exercise; 2.20. Bibliography Chapter 3. Ballistic Transport and Transmission Conductance3.1. Conductance of a ballistic conductor; 3.2. Connection between 2D and 1D systems; 3.3. A classical analogy; 3.4. Transmission conductance: Landauer's formula; 3.5. What if the device length really does go down to zero?; 3.6. A smart experiment which shows you everything; 3.7. Relationship between the Landauer formula and Ohm's law; 3.8. Dissipation with a scatterer; 3.9. Voltage probe measurements; 3.10. Comment about the assumption that T is constant; 3.11. Generalization of Landauer's formula: Büttiker's formula 3.11.1. Büttiker's formula3.11.2. Three-terminal device; 3.11.3. Four-terminal device; 3.12. Non-zero temperature; 3.12.1. Large applied bias μ1-μ2>>0; 3.12.2. Incoherent states; 3.12.3. Coherent states; 3.12.4. Physical parameters included in the transmission probability; 3.12.5. Linear response (μ1-μ2 4.1. Scattering matrix or S-matrix
Record Nr.	UNINA-9911019273403321

Pubbl/distr/stampa	Weinheim, : Wiley-VCH Verlag GmbH & Co., c2010
Descrizione fisica	1 online resource (375 p.)
Disciplina	665.81 665.81 22
Altri autori (Persone)	HirscherMichael
Soggetto topico	Hydrogen - Storage - Materials Energy storage
Soggetto genere / forma	Electronic books.
ISBN	3-527-62980-7 1-282-54928-6 9786612549281 3-527-62981-5
Classificazione	540 ERG 770b VE 9850 ZP 4150
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Handbook of Hydrogen Storage: New Materials for Future Energy Storage; Foreword; Contents; Preface; List of Contributors; 1 Storage of Hydrogen in the Pure Form; 1.1 Introduction; 1.2 Thermodynamic State and Properties; 1.2.1 Variables of State; 1.2.2 T-s-Diagram; 1.2.2.1 Joule-Thomson Coefficient; 1.2.3 Properties; 1.3 Gaseous Storage; 1.3.1 Compression and Expansion; 1.3.2 Tank Systems; 1.3.3 High Pressure Infrastructure; 1.4 Liquid Storage; 1.4.1 Liquefaction; 1.4.2 Thermodynamic Analysis; 1.4.2.1 Pressure Build-Up; 1.4.2.2 Boil-Off; 1.4.2.3 Cooling and Filling; 1.4.2.4 Back-Gas 1.4.3 Tank Systems1.4.4 Distribution Facilities; 1.5 Hybrid Storage; 1.5.1 Supercritical Storage; 1.5.2 Hydrogen Slush; 1.6 Comparison of Energy Densities; 1.7 Conclusion; References; 2 Physisorption in Porous Materials; 2.1 Introduction; 2.2 Carbon Materials; 2.3 Organic Polymers; 2.4 Zeolites; 2.5 Coordination Polymers; 2.6 Conclusions; References; 3 Clathrate Hydrates; 3.1 Introduction; 3.2 Clathrate Hydrate Structures; 3.3 Hydrogen Clathrate Hydrate; 3.4 Kinetic Aspects of Hydrogen Clathrate Hydrate; 3.5 Modeling of Hydrogen Clathrate Hydrates; 3.6 Future of Hydrogen Storage; References 4 Metal Hydrides4.1 Introduction; 4.2 Elemental Hydrides; 4.2.1 Ionic or Saline Hydrides; 4.2.2 Covalent Hydrides; 4.2.3 Metallic Hydrides; 4.3 Thermodynamics of Metal Hydrides; 4.3.1 Introduction; 4.3.2 Low Concentration; 4.3.3 High Concentration; 4.4 Intermetallic Compounds; 4.4.1 Thermodynamics; 4.4.1.1 Miedema's Model; 4.4.1.2 Semi-Empirical Band Structure Model; 4.4.2 Crystal Structure; 4.4.3 Electronic Structure; 4.5 Practical Considerations; 4.5.1 Synthesis; 4.5.2 Activation; 4.5.3 Hysteresis; 4.5.4 Plateau Slope; 4.5.5 Reversible Capacity; 4.5.6 Hydrogenation Kinetics 4.5.7 Cycle Life4.5.8 Decrepitation; 4.6 Metal Hydrides Systems; 4.6.1 AB5; 4.6.2 TiFe; 4.6.3 AB2 Laves Phases; 4.6.4 BCC Solid Solution; 4.7 Nanocrystalline Mg and Mg-Based Alloys; 4.7.1 Hydrogen Sorption Kinetics; 4.7.2 Reduction of the Heat of Formation; 4.7.3 Severe Plastic Deformation Techniques; 4.8 Conclusion; 4.8.1 Alloys Development; 4.8.2 Synthesis; 4.8.3 System Engineering; References; 5 Complex Hydrides; 5.1 Introduction; 5.2 Complex Borohydrides; 5.2.1 Introduction; 5.2.2 Stability of Metal Borohydrides; 5.2.3 Decomposition of Complex Borohydrides 5.2.4 Lithium Borohydride, LiBH45.2.4.1 Synthesis and Crystal Structure; 5.2.4.2 Decomposition of LiBH4; 5.2.5 Sodium Borohydride, NaBH4; 5.2.5.1 Synthesis and Crystal Structure; 5.2.5.2 Decomposition of NaBH4; 5.2.6 Potassium Borohydride KBH4; 5.2.7 Beryllium Borohydride Be(BH4)2; 5.2.8 Magnesium Borohydride Mg(BH4)2; 5.2.8.1 Synthesis and Crystal Structure; 5.2.8.2 Decomposition; 5.2.9 Calcium Borohydride Ca(BH4)2; 5.2.9.1 Synthesis and Crystal Structure; 5.2.9.2 Decomposition; 5.2.10 Aluminum Borohydride Al(BH4)3; 5.2.10.1 Synthesis and Crystal Structure; 5.2.10.2 Decomposition 5.2.11 Zinc Borohydride Zn(BH4)2
Record Nr.	UNINA-9910140615203321

Edizione	[1st ed.]
Pubbl/distr/stampa	New York, : Springer, 2010
Descrizione fisica	1 online resource (301 p.)
Disciplina	620.5
Altri autori (Persone)	KijimaTsuyoshi
Collana	Topics in applied physics
Soggetto topico	Nanotubes
ISBN	1-282-98403-9 9786612984037 3-642-03622-8
Classificazione	620 UD 2020 VE 9850
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	to Inorganic and Metallic Nanotubes -- Synthesis and Applications of Titanium Oxide Nanotubes -- Synthesis, Structural Analysis, and Applications of Titanium Oxide Nanotubes -- Synthesis and Applications of Titanium Oxide Nanotube Thin Films -- Synthesis and Application of Titanium Oxide Nanohole Arrays -- Synthesis and Applications of Manganese Oxide Nanotubes -- Synthesis and Applications of Molybdenum Oxide Nanotubes -- Synthesis and Applications of Rare-Earth Compound Nanotubes -- Synthesis and Applications of Zirconia and Ruthenium Oxide Nanotubes -- Conversion of Metal Oxide Nanosheets into Nanotubes -- Synthesis and Applications of Mixed Oxide Nanotubes -- Synthesis and Applications of Imogolite Nanotubes -- Structure and Properties of Imogolite Nanotubes and Their Application to Polymer Nanocomposites -- Synthesis and Applications of Chalcogenide Nanotubes -- Synthesis and Functions of Fullerene Nanotubes -- Synthesis and Applications of Noble-Metal Nanotubes -- Synthesis and Applications of Magnetic-Metal Nanotubes -- Synthesis and Applications of Water Nanotubes -- Design and Synthesis of Titanium Oxide Nanotubes -- In Situ TEM Electrical and Mechanical Probing of Individual Multi-walled Boron Nitride Nanotubes.
Record Nr.	UNINA-9910634048003321

Pubbl/distr/stampa	Berlin ; ; Boston : , : Walter de Gruyter GmbH & Company, , [2013]
Descrizione fisica	1 online resource (232 p.)
Disciplina	620.1/15
Altri autori (Persone)	ArestaM <1940-> (Michele) DibenedettoAngela
Soggetto topico	Chemistry, Inorganic Nanostructured materials
Soggetto genere / forma	Electronic books.
ISBN	1-68015-255-6 3-11-030687-5 3-11-030688-3
Classificazione	VE 9850
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Frontmatter -- List of contributing authors -- Table of Contents -- Introduction: Nano- (and micro-)materials and human wellbeing -- 1. Coating antibacterial nanoparticles on textiles: Towards the future hospital in which all textiles will be antibacterial / Gedanken, Aharon / Perkas, Nina / Perelshtein, Ilana -- 2. Automated solutions for high-throughput experimentation in heterogeneous catalyst research / Brancaleoni, Dario / Squassabia, Federico -- 3. Insights from XPS on nanosized inorganic materials / Malitesta, Cosimino / Margapoti, Eleonora -- 4. Single crystal and powder XRD techniques: An overview / Altomare, Angela / Cuocci, Corrado / Moliterni, Anna / Rizzi, Rosanna -- 5. Structural and electronic characterization of nanosized inorganic materials by X-ray absorption spectroscopies / Borfecchia, Elisa / Agostini, Giovanni / Bordiga, Silvia / Groppo, Elena / Garino, Claudio / Gobetto, Roberto / Agostino, Angelo / Mino, Lorenzo / Truccato, Marco / Gianolio, Diego / Piovano, Andrea / Martinez-Criado, Gema / Salassa, Luca / Lamberti, Carlo -- 6. Lens-less scanning X-raymicroscopy with SAXS and WAXS contrast / Giannini, Cinzia / Altamura, Davide / Aresta, Brunella Maria / Sibillano, Teresa / Siliqi, Dritan / De Caro, Liberato -- 7. Characterization of inorganic nanostructured materials by electron microscopy / Comparelli, Roberto / Fanizza, Elisabetta / Striccoli, Marinella / Curri, M. Lucia -- 8. Nanosized particles: questioned for their potential toxicity, but some are applied in biomedicine / Dibenedetto, Angela / Fasciano, Stefania / Colucci, Antonella / Aresta, Michele -- Index
Record Nr.	UNINA-9910453383303321