Description |
1 online resource (xvi, 412 pages) : illustrations. |
Physical Medium |
polychrome |
Description |
text file |
Series |
Nanotechnology science and technology series
|
|
Nanotechnology science and technology series.
|
Bibliography |
Includes bibliographical references and index. |
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 ferromagnetism""""CONCLUSION ""; ""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 "" |
Local Note |
eBooks on EBSCOhost EBSCO eBook Subscription Academic Collection - North America |
Subject |
Nanostructured materials.
|
|
Nanostructured materials. |
Genre/Form |
Electronic books.
|
Added Author |
Cabral, Vinicius.
|
|
Silva, Renan, 1965-
|
Other Form: |
Print version: Nanomaterials. New York : Nova Science Publishers, ©2010 9781608766277 (DLC) 2009041996 (OCoLC)441192797 |
ISBN |
9781617618031 (electronic book) |
|
1617618039 (electronic book) |
|
9781608766277 |
|
1608766276 |
|