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Title Anisotropic Particle Assemblies : Synthesis, Assembly, Modeling, and Applications / edited by Ning Wu, Daeyeon Lee, Alberto Striolo.

Publication Info. Amsterdam, Netherlands : Elsevier, [2018]
©2018

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 Axe Elsevier ScienceDirect Ebook  Electronic Book    ---  Available
Description 1 online resource
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Note Online resource; title from PDF title page (EBSCO, viewed July 18, 2018).
Bibliography Includes bibliographical references and index.
Summary "Anisotropic Particle Assemblies: Synthesis, Assembly, Modeling, and Applications covers the synthesis, assembly, modeling, and applications of various types of anisotropic particles. Topics such as chemical synthesis and scalable fabrication of colloidal molecules, molecular mimetic self-assembly, directed assembly under external fields, theoretical and numerical multi-scale modeling, anisotropic materials with novel interfacial properties, and the applications of these topics in renewable energy, intelligent micro-machines, and biomedical fields are discussed in depth. Contributors to this book are internationally known experts who have been actively studying each of these subfields for many years. This book is an invaluable reference for researchers and chemical engineers who are working at the intersection of physics, chemistry, chemical engineering, and materials science and engineering. It educates students, trains the next generation of researchers, and stimulates continuous development in this rapidly emerging area for new materials and innovative technologies. Provides comprehensive coverage on new developments in anisotropic particlesFeatures chapters written by emerging and leading experts in each of the subfieldsContains information that will appeal to a broad spectrum of professionals, including but not limited to chemical engineers, chemists, physicists, and materials scientists and engineersServes as both a reference book for researchers and a textbook for graduate students"-- Provided by publisher
Contents Front Cover; Anisotropic Particle Assemblies: Synthesis, Assembly, Modeling, and Applications; Copyright; Contents; Contributors; Chapter 1: Recent advances in the synthesis of anisotropic particles; 1.1. Introduction; 1.2. Anisotropic Organic Particles; 1.3. Anisotropic Polymeric Particles; 1.3.1. Controlled Deformation; 1.3.2. Swelling and Phase Separation; 1.3.3. Geometrical Confinement; 1.3.4. Self-Assembly of Block Co- and Terpolymers; 1.3.5. Replication; 1.3.6. Lithography Techniques; 1.3.7. Fluidic Processes; 1.4. Anisotropic Hybrid Particles.
1.4.1. Hybrid Polymeric/Inorganic Particles1.4.1.1. Electrostatic interactions; 1.4.1.2. Fluidic processes; 1.4.1.3. Seeded polymerization; 1.4.1.4. Geometrical confinement; 1.4.2. Hybrid Dielectric/Metal Particles; 1.4.2.1. Epitaxial growth; 1.4.2.2. Surface modification; 1.4.2.3. Masking and templating; 1.4.2.4. Precipitation polymerization; 1.4.3. Hybrid Metal-Semiconductor Particles; 1.4.3.1. Heterogeneous nucleation; 1.4.3.2. Simultaneous growth of both components in the absence of preformed seeds; 1.4.4. Hybrid Metal-Metal Particles; 1.4.4.1. Clustering assisted by van der Waals forces.
1.4.4.2. Heterogeneous nucleation via epitaxial growth1.4.4.3. Heterogeneous nucleation via nonepitaxial growth; 1.4.4.4. Galvanic displacement; 1.4.4.5. Growth in a template; 1.5. Conclusions; References; Chapter 2: Shape control in the synthesis of colloidal semiconductor nanocrystals; 2.1. Introduction; 2.2. II-VI NCS; 2.3. VI-IV NCS; 2.4. III-V NCS; 2.5. Halide Perovskite NCS; 2.6. Concluding Remarks; References; Chapter 3: On the mechanistic studies of the growth of anisotropic particles (theory and simulation); 3.1. Introduction; 3.2. Anisotropic Crystals Precipitation: Principles.
3.2.1. Crystal Growth Driving Force3.2.2. Particle Morphology: Thermodynamic vs. Kinetic Control; 3.2.2.1. Equilibrium morphology; 3.2.2.2. Growth morphology; 3.2.2.3. Computing particle morphology; 3.3. Defining, Representing, and Computing Particle Morphologies; 3.3.1. A Mathematical Definition of Particle Morphology; 3.3.2. Representing the Morphology Space; 3.3.2.1. Morphology graph; 3.3.2.2. Morphology domain; 3.3.2.3. Shape diagram; 3.4. Growth Mechanisms and Mechanistic Models; 3.4.1. Kink Sites: Hot Spots for Growth; 3.4.2. Diffusion Limited Growth.
3.4.2.1. Growth rate in the rough regime3.4.3. Layered Growth; 3.4.3.1. Rate of step propagation; 3.4.4. Surface Nucleation; 3.4.4.1. Growth rate dominated by surface nucleation; 3.4.5. Spiral Growth; 3.4.5.1. Growth rate in the spiral mechanism; 3.4.6. Growth Regimes vs. Driving Force; 3.5. Molecular Models; 3.5.1. Particle Morphology From Static Molecular Information; 3.5.1.1. Particle morphology from molecular structure; 3.5.1.2. Particle morphologies from attachment energy; 3.5.2. Molecular Dynamics Simulations of Crystal Growth; 3.5.2.1. Molecular dynamics simulation setup.
Subject Anisotropy.
Particles -- Optical properties.
Anisotropy
Anisotropie.
anisotropy.
SCIENCE -- Physics -- Crystallography.
Anisotropy
Particles -- Optical properties
Added Author Wu, Ning, editor.
Lee, Daeyeon, editor.
Striolo, Alberto, editor.
Other Form: Print version: Anisotropic Particle Assemblies. Amsterdam, Netherlands : Elsevier, [2018] 0128040696 9780128040690 (OCoLC)974027606
ISBN 9780128041093 (electronic bk.)
0128041099 (electronic bk.)
9780128040690
0128040696
Standard No. GBVCP 1028101651
UKMGB 018973298
AU@ 000069026726

 
    
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