Verfügbarkeit: Nanomaterials :

Nanomaterials :: properties, preparation and processes /

Gespeichert in:

Bibliographische Detailangaben
Weitere Verfasser:	Cabral, Vinicius, Silva, Renan, 1965-
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	New York : Nova Science Publishers, ©2010.
Schriftenreihe:	Nanotechnology science and technology series.
Schlagworte:	Nanostructured materials. Nanomatériaux. TECHNOLOGY & ENGINEERING > Material Science. Nanostructured materials
Online-Zugang:	Volltext
Beschreibung:	1 online resource (xvi, 412 pages) : illustrations
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781617618031 1617618039

Internformat

MARC


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505	8		\|a The Dynamics of the Electric Circuit The Diffusion of the Magnetic Field -- Heating of the Turns, the Shell and the Rod -- Details of Numerical Calculations -- Comparison with Experiments -- Theoretical Calculations and the Discussion -- CONCLUSION -- REFERENCES -- TIO2 NANOCRYSTALS: PHASE SELECTIVE AND MORPHOLOGY CONTROLLABLE SYNTHESIS AND THEIR ENHANCED FUNCTIONALITY VIA DOPING -- ABSTRACT -- 1. INTRODUCTION -- 2. PHASE SELECTIVE AND MORPHOLOGY CONTROLLABLE SYNTHESIS OF TIO2 POLYMORPHS -- 2.1. Phase Controlled Synthesis via Hydrothermal Processing
505	8		\|a 2.2. Synthesis of Quasi-equiaxed Rutile Nanocrystals via Acid Hydrothermal Conversion of Degussa P25 2.3. Phase Structure and Morphology Controlled Synthesis under Near Ambient Conditions -- 3. DOPING TIO2 NANOCRYSTALS FOR ENHANCED FUNCTIONALITIES -- 3.1. Non-Metallic Doping of TiO2 for Enhanced Photocatalysis via Single Molecular Processing -- 3.2. Efficient Doping of TiO2 Nanocrystals via Radio-Frequency (RF) Thermal Plasma Processing -- 3.2.1. Chlorine doping for improved photocatalytic performances -- 3.2.2. Rare-earth doping for novel photoluminescent properties
505	8		\|a 3.2.3. Transition metal (Co2+) doping for room temperature ferromagnetismCONCLUSION -- ACKNOWLEDGMENT -- REFERENCES -- NANOPARTICLE SYNTHESIS BY THERMAL PLASMAS -- ABSTRACT -- 1. INTRODUCTION -- 2. CHARACTERISTICS OF THERMAL PLASMAS -- 2.1. Fundamental Processes in Thermal Plasmas -- 2.2. Induction Thermal Plasmas -- 2.3. DC Plasmas -- 3. Experimental Research of ITP-Aided Nanoparticle Synthesis -- 3.1. Intermetallic Compound and Alloy Nanoparticle -- 3.2. Ferrite Nanoparticle -- 3.3. Boride Nanoparticle -- 3.3.1. Thermodynamic Consideration
505	8		\|a 3.3.2. Experimental 3.3.3. Discussion -- 3.4. Silicide Nanoparticle -- 3.4.1. Experimental -- 3.5. Carbide Nanoparticle -- 3.5.1. Silicon Carbide -- 3.5.2. Tantalum Carbide -- 3.5.3. Tungsten Carbide -- 3.6. Nitride Nanoparticle -- 3.6.1. Titanium Nitride -- 3.6.2. Silicon Nitride -- 3.6.3. Aluminum Nitride -- 3.7. Oxide Nanoparticle -- 3.7.1. Experimental -- 4. MODELING OF ITP-AIDED NANOPARTICLE SYNTHESIS -- 4.1. Fundamental Mechanism -- 4.2. Model Description and Numerical Results -- 4.2.1. Induction Thermal Plasma
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contents	Nanomaterials: properties, preparation and processes -- nanomaterials: properties, preparation and processes -- contents -- preface -- theory of the magnetic pulsed compaction of nanosized powders -- abstract -- introduction -- 1. the nanopowders hardening laws and the radial compaction within the quasi-static conditions -- 2. regularities of dynamic processes of nanopowders radial compaction -- 3. the radial magnetic pulsed compaction within pronounced skin effect approximation -- 4. the î?- pinch theory taking into account the magnetic field diffusion The Dynamics of the Electric Circuit The Diffusion of the Magnetic Field -- Heating of the Turns, the Shell and the Rod -- Details of Numerical Calculations -- Comparison with Experiments -- Theoretical Calculations and the Discussion -- CONCLUSION -- REFERENCES -- TIO2 NANOCRYSTALS: PHASE SELECTIVE AND MORPHOLOGY CONTROLLABLE SYNTHESIS AND THEIR ENHANCED FUNCTIONALITY VIA DOPING -- ABSTRACT -- 1. INTRODUCTION -- 2. PHASE SELECTIVE AND MORPHOLOGY CONTROLLABLE SYNTHESIS OF TIO2 POLYMORPHS -- 2.1. Phase Controlled Synthesis via Hydrothermal Processing 2.2. Synthesis of Quasi-equiaxed Rutile Nanocrystals via Acid Hydrothermal Conversion of Degussa P25 2.3. Phase Structure and Morphology Controlled Synthesis under Near Ambient Conditions -- 3. DOPING TIO2 NANOCRYSTALS FOR ENHANCED FUNCTIONALITIES -- 3.1. Non-Metallic Doping of TiO2 for Enhanced Photocatalysis via Single Molecular Processing -- 3.2. Efficient Doping of TiO2 Nanocrystals via Radio-Frequency (RF) Thermal Plasma Processing -- 3.2.1. Chlorine doping for improved photocatalytic performances -- 3.2.2. Rare-earth doping for novel photoluminescent properties 3.2.3. Transition metal (Co2+) doping for room temperature ferromagnetismCONCLUSION -- ACKNOWLEDGMENT -- REFERENCES -- NANOPARTICLE SYNTHESIS BY THERMAL PLASMAS -- ABSTRACT -- 1. INTRODUCTION -- 2. CHARACTERISTICS OF THERMAL PLASMAS -- 2.1. Fundamental Processes in Thermal Plasmas -- 2.2. Induction Thermal Plasmas -- 2.3. DC Plasmas -- 3. Experimental Research of ITP-Aided Nanoparticle Synthesis -- 3.1. Intermetallic Compound and Alloy Nanoparticle -- 3.2. Ferrite Nanoparticle -- 3.3. Boride Nanoparticle -- 3.3.1. Thermodynamic Consideration 3.3.2. Experimental 3.3.3. Discussion -- 3.4. Silicide Nanoparticle -- 3.4.1. Experimental -- 3.5. Carbide Nanoparticle -- 3.5.1. Silicon Carbide -- 3.5.2. Tantalum Carbide -- 3.5.3. Tungsten Carbide -- 3.6. Nitride Nanoparticle -- 3.6.1. Titanium Nitride -- 3.6.2. Silicon Nitride -- 3.6.3. Aluminum Nitride -- 3.7. Oxide Nanoparticle -- 3.7.1. Experimental -- 4. MODELING OF ITP-AIDED NANOPARTICLE SYNTHESIS -- 4.1. Fundamental Mechanism -- 4.2. Model Description and Numerical Results -- 4.2.1. Induction Thermal Plasma
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series2	Nanotechnology science and technology series
spelling	Nanomaterials : properties, preparation and processes / Vinicius Cabral and Renan Silva, editors. New York : Nova Science Publishers, ©2010. 1 online resource (xvi, 412 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Nanotechnology science and technology series Includes bibliographical references and index. Print version record. Nanomaterials: properties, preparation and processes -- nanomaterials: properties, preparation and processes -- contents -- preface -- theory of the magnetic pulsed compaction of nanosized powders -- abstract -- introduction -- 1. the nanopowders hardening laws and the radial compaction within the quasi-static conditions -- 2. regularities of dynamic processes of nanopowders radial compaction -- 3. the radial magnetic pulsed compaction within pronounced skin effect approximation -- 4. the î?- pinch theory taking into account the magnetic field diffusion The Dynamics of the Electric Circuit The Diffusion of the Magnetic Field -- Heating of the Turns, the Shell and the Rod -- Details of Numerical Calculations -- Comparison with Experiments -- Theoretical Calculations and the Discussion -- CONCLUSION -- REFERENCES -- TIO2 NANOCRYSTALS: PHASE SELECTIVE AND MORPHOLOGY CONTROLLABLE SYNTHESIS AND THEIR ENHANCED FUNCTIONALITY VIA DOPING -- ABSTRACT -- 1. INTRODUCTION -- 2. PHASE SELECTIVE AND MORPHOLOGY CONTROLLABLE SYNTHESIS OF TIO2 POLYMORPHS -- 2.1. Phase Controlled Synthesis via Hydrothermal Processing 2.2. Synthesis of Quasi-equiaxed Rutile Nanocrystals via Acid Hydrothermal Conversion of Degussa P25 2.3. Phase Structure and Morphology Controlled Synthesis under Near Ambient Conditions -- 3. DOPING TIO2 NANOCRYSTALS FOR ENHANCED FUNCTIONALITIES -- 3.1. Non-Metallic Doping of TiO2 for Enhanced Photocatalysis via Single Molecular Processing -- 3.2. Efficient Doping of TiO2 Nanocrystals via Radio-Frequency (RF) Thermal Plasma Processing -- 3.2.1. Chlorine doping for improved photocatalytic performances -- 3.2.2. Rare-earth doping for novel photoluminescent properties 3.2.3. Transition metal (Co2+) doping for room temperature ferromagnetismCONCLUSION -- ACKNOWLEDGMENT -- REFERENCES -- NANOPARTICLE SYNTHESIS BY THERMAL PLASMAS -- ABSTRACT -- 1. INTRODUCTION -- 2. CHARACTERISTICS OF THERMAL PLASMAS -- 2.1. Fundamental Processes in Thermal Plasmas -- 2.2. Induction Thermal Plasmas -- 2.3. DC Plasmas -- 3. Experimental Research of ITP-Aided Nanoparticle Synthesis -- 3.1. Intermetallic Compound and Alloy Nanoparticle -- 3.2. Ferrite Nanoparticle -- 3.3. Boride Nanoparticle -- 3.3.1. Thermodynamic Consideration 3.3.2. Experimental 3.3.3. Discussion -- 3.4. Silicide Nanoparticle -- 3.4.1. Experimental -- 3.5. Carbide Nanoparticle -- 3.5.1. Silicon Carbide -- 3.5.2. Tantalum Carbide -- 3.5.3. Tungsten Carbide -- 3.6. Nitride Nanoparticle -- 3.6.1. Titanium Nitride -- 3.6.2. Silicon Nitride -- 3.6.3. Aluminum Nitride -- 3.7. Oxide Nanoparticle -- 3.7.1. Experimental -- 4. MODELING OF ITP-AIDED NANOPARTICLE SYNTHESIS -- 4.1. Fundamental Mechanism -- 4.2. Model Description and Numerical Results -- 4.2.1. Induction Thermal Plasma Nanostructured materials. http://id.loc.gov/authorities/subjects/sh93000864 Nanomatériaux. TECHNOLOGY & ENGINEERING Material Science. bisacsh Nanostructured materials fast Cabral, Vinicius. Silva, Renan, 1965- https://id.oclc.org/worldcat/entity/E39PCjxXvDMY6WqCcPQxvHXFjC http://id.loc.gov/authorities/names/n2009069464 has work: Nanomaterials (Text) https://id.oclc.org/worldcat/entity/E39PCH6tkFvqT7GFwYQqBhd373 https://id.oclc.org/worldcat/ontology/hasWork Print version: Nanomaterials. New York : Nova Science Publishers, ©2010 9781608766277 (DLC) 2009041996 (OCoLC)441192797 Nanotechnology science and technology series. http://id.loc.gov/authorities/names/no2009109464 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=340140 Volltext
spellingShingle	Nanomaterials : properties, preparation and processes / Nanotechnology science and technology series. Nanomaterials: properties, preparation and processes -- nanomaterials: properties, preparation and processes -- contents -- preface -- theory of the magnetic pulsed compaction of nanosized powders -- abstract -- introduction -- 1. the nanopowders hardening laws and the radial compaction within the quasi-static conditions -- 2. regularities of dynamic processes of nanopowders radial compaction -- 3. the radial magnetic pulsed compaction within pronounced skin effect approximation -- 4. the î?- pinch theory taking into account the magnetic field diffusion The Dynamics of the Electric Circuit The Diffusion of the Magnetic Field -- Heating of the Turns, the Shell and the Rod -- Details of Numerical Calculations -- Comparison with Experiments -- Theoretical Calculations and the Discussion -- CONCLUSION -- REFERENCES -- TIO2 NANOCRYSTALS: PHASE SELECTIVE AND MORPHOLOGY CONTROLLABLE SYNTHESIS AND THEIR ENHANCED FUNCTIONALITY VIA DOPING -- ABSTRACT -- 1. INTRODUCTION -- 2. PHASE SELECTIVE AND MORPHOLOGY CONTROLLABLE SYNTHESIS OF TIO2 POLYMORPHS -- 2.1. Phase Controlled Synthesis via Hydrothermal Processing 2.2. Synthesis of Quasi-equiaxed Rutile Nanocrystals via Acid Hydrothermal Conversion of Degussa P25 2.3. Phase Structure and Morphology Controlled Synthesis under Near Ambient Conditions -- 3. DOPING TIO2 NANOCRYSTALS FOR ENHANCED FUNCTIONALITIES -- 3.1. Non-Metallic Doping of TiO2 for Enhanced Photocatalysis via Single Molecular Processing -- 3.2. Efficient Doping of TiO2 Nanocrystals via Radio-Frequency (RF) Thermal Plasma Processing -- 3.2.1. Chlorine doping for improved photocatalytic performances -- 3.2.2. Rare-earth doping for novel photoluminescent properties 3.2.3. Transition metal (Co2+) doping for room temperature ferromagnetismCONCLUSION -- ACKNOWLEDGMENT -- REFERENCES -- NANOPARTICLE SYNTHESIS BY THERMAL PLASMAS -- ABSTRACT -- 1. INTRODUCTION -- 2. CHARACTERISTICS OF THERMAL PLASMAS -- 2.1. Fundamental Processes in Thermal Plasmas -- 2.2. Induction Thermal Plasmas -- 2.3. DC Plasmas -- 3. Experimental Research of ITP-Aided Nanoparticle Synthesis -- 3.1. Intermetallic Compound and Alloy Nanoparticle -- 3.2. Ferrite Nanoparticle -- 3.3. Boride Nanoparticle -- 3.3.1. Thermodynamic Consideration 3.3.2. Experimental 3.3.3. Discussion -- 3.4. Silicide Nanoparticle -- 3.4.1. Experimental -- 3.5. Carbide Nanoparticle -- 3.5.1. Silicon Carbide -- 3.5.2. Tantalum Carbide -- 3.5.3. Tungsten Carbide -- 3.6. Nitride Nanoparticle -- 3.6.1. Titanium Nitride -- 3.6.2. Silicon Nitride -- 3.6.3. Aluminum Nitride -- 3.7. Oxide Nanoparticle -- 3.7.1. Experimental -- 4. MODELING OF ITP-AIDED NANOPARTICLE SYNTHESIS -- 4.1. Fundamental Mechanism -- 4.2. Model Description and Numerical Results -- 4.2.1. Induction Thermal Plasma Nanostructured materials. http://id.loc.gov/authorities/subjects/sh93000864 Nanomatériaux. TECHNOLOGY & ENGINEERING Material Science. bisacsh Nanostructured materials fast
subject_GND	http://id.loc.gov/authorities/subjects/sh93000864
title	Nanomaterials : properties, preparation and processes /
title_auth	Nanomaterials : properties, preparation and processes /
title_exact_search	Nanomaterials : properties, preparation and processes /
title_full	Nanomaterials : properties, preparation and processes / Vinicius Cabral and Renan Silva, editors.
title_fullStr	Nanomaterials : properties, preparation and processes / Vinicius Cabral and Renan Silva, editors.
title_full_unstemmed	Nanomaterials : properties, preparation and processes / Vinicius Cabral and Renan Silva, editors.
title_short	Nanomaterials :
title_sort	nanomaterials properties preparation and processes
title_sub	properties, preparation and processes /
topic	Nanostructured materials. http://id.loc.gov/authorities/subjects/sh93000864 Nanomatériaux. TECHNOLOGY & ENGINEERING Material Science. bisacsh Nanostructured materials fast
topic_facet	Nanostructured materials. Nanomatériaux. TECHNOLOGY & ENGINEERING Material Science. Nanostructured materials
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=340140
work_keys_str_mv	AT cabralvinicius nanomaterialspropertiespreparationandprocesses AT silvarenan nanomaterialspropertiespreparationandprocesses

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