Complex-shaped Metal Nanoparticles
Bottom-Up Syntheses and Applications
(Sprache: Englisch)
Renowned researchers from all over the world present existing knowledge of the field, covering all important aspects and techniques of preparation and characterization of nanoparticles with controlled morphology and architecture, from the basics right up to recent developments.
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Produktinformationen zu „Complex-shaped Metal Nanoparticles “
Renowned researchers from all over the world present existing knowledge of the field, covering all important aspects and techniques of preparation and characterization of nanoparticles with controlled morphology and architecture, from the basics right up to recent developments.
Klappentext zu „Complex-shaped Metal Nanoparticles “
The past few years have witnessed the development of non-spherical metal nanoparticles with complex morphologies, which offer tremendous potential in materials science, chemistry, physics and medicine.Covering all important aspects and techniques of preparation and characterization of metal nanoparticles with controlled morphology and architecture, this book provides a sound overview - from the basics right up to recent developments. Renowned research scientists from all over the world present the existing knowledge in the field, covering theory and modeling, synthesis and properties of these nanomaterials.By emphasizing the underlying concepts and principles in detail, this book enables researchers to fully recognize the future research scope and the application potential of the complex-shaped metal nanoparticles, inspiring further research in this field.
The past few years have witnessed the development of non-spherical metal nanoparticles with complex morphologies, such as polyhedra, plates, prisms, rods, wires, nanoboxes, nanocages or dumbbells, that offer tremendous potential in materials science, biochemistry and medicine.
Covering all important aspects and techniques of preparation and characterization of nanoparticles with controlled morphology and architecture, this book provides a sound overview -- from the basics right up to recent developments. Renowned research scientists from all over the world present our existing knowledge of the field, covering theory and modeling, synthesis, characterization and the properties of these novel nanomaterials. By emphasizing the underlying concepts and principles in detail, the book enables researchers to fully recognize and exploit the application potential of complex-shaped nanoparticles, thus laying down the state of the art but also inspiring further research.
Covering all important aspects and techniques of preparation and characterization of nanoparticles with controlled morphology and architecture, this book provides a sound overview -- from the basics right up to recent developments. Renowned research scientists from all over the world present our existing knowledge of the field, covering theory and modeling, synthesis, characterization and the properties of these novel nanomaterials. By emphasizing the underlying concepts and principles in detail, the book enables researchers to fully recognize and exploit the application potential of complex-shaped nanoparticles, thus laying down the state of the art but also inspiring further research.
Inhaltsverzeichnis zu „Complex-shaped Metal Nanoparticles “
PrefaceMETAL NANOPARTICLES OF COMPLEX MORPHOLOGIES: A GENERAL INTRODUCTIONCOLLOIDAL SYNTHESIS OF NOBEL METAL NANOPARTICLES OF COMPLEX MORPHOLOGIESIntroductionClassification of Nobel Metal NanoparticlesSynthesis MethodologiesCharacterizationThermodynamic-Kinetic Factors and Particle MorphologyMechanisms of Morphology EvolutionConclusions and OutlookCONTROLLING MORPHOLOGY IN NOBLE METAL NANOPARTICLES VIA TEMPLATING APPRAOCHIntroductionGalvanic Replacement MethodHard Template-Directed MethodSoft Template-Directed MethodConclusions and OutlookSHAPE-CONTROLLED SYNTHESIS OF METAL NANOPARTICLES OF HIGH SURFACE ENERGY AND THEIR APPLICATIONS IN ELECTROCATALYSISIntroductionFundamentals and BackgroundProgress in Shape-Controlled Synthesis of Metal Nanoparticles of High Surface Energy and Their ApplicationsTheoretical Simulations of Structural Transformation and Stability of Metal Nanoparticles with High Surface EnergyConclusionsSHAPE-CONTROLLED SYNTHESIS OF COPPER NANOPARTICLESIntroductionMetallic CopperElectrodeposition Method for Growth of Cu Nanoparticles of Different ShapesConclusionsSIZE- AND SHAPE-VARIANT MAGNETIC METAL AND METAL OXIDE NANOPARTICLES: SYNTHESIS AND PROPERTIESIntroductionSynthesis of Size- and Shape-Variant Ferrite NanoparticlesOther Magnetic Nanoparticles: Synthesis, Size Variance, and Shape VarianceMagnetism in Ferrite NanoparticlesMagnetic Nanoparticles for Biomedical ApplicationsConcluding Remarks and Future DirectionsSTRUCTURAL ASPECTS OF ANISOTROPIC METAL NANOPARTICLE GROWTH: EXPERIMENT AND THEORYIntroductionAtomic Packing on Metal NPsStructural Aspects in the Anisotropic Growth: The Silver Halide ModelExperimental Requisites to Produce Anisotropic NPsConcluding RemarksCOLLOIDS, NANOCRYSTALS, AND SURFACE NANOSTRUCTURES OF UNIFORM SIZE AND SHAPE: MODELING OF NUCLEATION AND GROWTH IN SOLUTION SYNTHESISIntroductionBurst Nucleation Model for Nanoparticle GrowthColloid Synthesis by Fast GrowthImproved Models for Two-Stage Colloid GrowthParticle Shape
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Selection in Solution SynthesisApplications for Control of Morphology in Surface Structure FormationSummaryMODELING NANOMORPHOLOGY IN NOBLE METAL PARTICLES: THERMODYNAMIC CARTOGRAPHYIntroductionAb Initio Simulation of Small Gold NanoclustersAb Initio Simulation of Gold NanoparticlesThermodynamic CartographyGold Nanorods and Dimensional AnisotropyComparison with Platinum and Inclusion of Surface DefectsConclusionsPLATINUM AND PALLADIUM NANOCRYSTALS: SOFT CHEMISTRY APPROACH TO SHAPE CONTROL FROM INDIVIDUAL PARTICLES TO THEIR SELF-ASSEMBLED SUPERLATTICESIntroductionInfluence of the Chemical Environment on the NC ShapeSynthesis of Platinum NanocubesSupercrystals Self-Assembled from Nonspherical NCsConclusionsORDERED AND NONORDERED POROUS SUPERSTRUCTURES FROM METAL NANOPARTICLESIntroductionMetallic Porous SuperstructuresSummary and OutlookLOCALIZED SURFACE PLASMONS OF MULTIFACETED METAL NANOPARTICLESIntroductionLight Absorption and Scattering by Metal NPsSpectral Representation FormalismSpherical and Spheroidal NPsDiscrete Dipole ApproximationSPRs in Multifaceted MorphologiesSummaryFLUOROPHORE-METAL NANOPARTICLE INTERACTIONS AND THEIR APPLICATIONS IN BIOSENSINGIntroductionFluorescence Decay Rates in the Vicinity of Metal NanostructuresShaping of Fluorescence Spectra by Metallic NanostructuresShaping of Extinction Spectra by Strong CouplingSpecific Issues on the Interaction of Fluorophores with Complex-Shaped Metallic NanoparticlesSURFACE-ENHANCED RAMAN SCATTERING USING COMPLEX-SHAPED METAL NANOSTRUCTURESIntroductionBasicsModelingSERS Substrate PreparationFundamental StudiesApplicationsConclusions and OutlookPHOTOTHERMAL EFFECT OF PLASMONIC NANOPARTICLES AND RELATED BIOAPPLICATIONSIntroductionTheory of the Photothermal Effect for Single Nanoparticles and for Nanoparticle ClustersPhysical Examples and ApplicationsApplication to Biological Cells: Control of Voltage Cellular Dynamics with Photothermal ActuationSummaryMETAL NANOPARTICLES IN BIOMEDICAL APPLICATIONSIntroductionBiosensing and DiagnosticsTherapeutic ApplicationsBioimagingConclusions and OutlookANISOTROPIC NANOPARTICLES FOR EFFICIENT THERMOELECTRIC DEVICESIntroductionChemical Synthesis Methods of Complex-Shaped TE NPsOne-Dimensional TE NPsTwo-Dimensional TE NPsOther Complex-Shaped TE NPsProperties of Complex-Shaped TE NPsConclusions and Future Outlook
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Autoren-Porträt
Tapan K. Sau is an associate professor at the International Institute of Information Technology, Hyderabad, India. After his PhD in chemistry, obtained from the Indian Institute of Technology in Kharagpur, he had worked as a postdoctoral fellow at the University of South Carolina-Columbia and Clarkson University, USA, and as an assistant professor at the Panjab University in Chandigarh, India. From 2007 to 2009 he was an Alexander-von-Humboldt Research Fellow at the Ludwig-Maximilians-Universität, München, Germany. His research interests are in synthesis, spectroscopy and applications of colloidal metal nanocrystals. He has authored over 50 publications including patents and book chapters.Andrey L. Rogach is chair professor at the Department of Physics and Materials Science of City University of Hong Kong. After his PhD in chemistry, obtained from the Belarusian State University in Minsk, he had worked as a research scientist at the University of Hamburg, Germany (1995-2002), and as a lead staff scientist at the Photonics and Optoelectronics group of the Ludwig-Maximilians-Universität Munich, Germany (2002-2009), where he completed his habilitation in experimental physics. His research is focused on synthesis, assembly, optical spectroscopy and applications of colloidal semiconductor and metal nanocrystals, which has been extensively (over 12,000) times cited.
Bibliographische Angaben
- 2012, XXIV, 558 Seiten, 35 farbige Abbildungen, Maße: 18,2 x 25,3 cm, Gebunden, Englisch
- Herausgegeben: Tapan K. Sau, Andrey L. Rogach
- Verlag: Wiley-VCH
- ISBN-10: 3527330771
- ISBN-13: 9783527330775
- Erscheinungsdatum: 09.07.2012
Sprache:
Englisch
Rezension zu „Complex-shaped Metal Nanoparticles “
"I would recommend it as an informative resource to anyone from students to experienced researchers." ( Platinum Metals Review , 1 March 2013)
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