Verfügbarkeit: Self-assembling systems

Self-assembling systems: theory and simulation

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Bibliographische Detailangaben
1. Verfasser:	Yan, Li-Tang 1978- (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Chichester, West Sussex John Wiley & Sons, Inc. 2016
Schlagworte:	Colloidal crystals Polymers Self-assembly (Chemistry) SCIENCE / Chemistry / Organic Chemie
Online-Zugang:	FRO01 UBG01 Volltext
Beschreibung:	Includes bibliographical references and index
Beschreibung:	1 online resource
ISBN:	1119113156 1119113164 1119113172 9781119113157 9781119113164 9781119113171

Internformat

MARC


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100	1		\|a Yan, Li-Tang \|d 1978- \|e Verfasser \|4 aut
245	1	0	\|a Self-assembling systems \|b theory and simulation \|c edited by Li-Tang Yan, Department of Chemical Engineering, Tsinghua University, China
264		1	\|a Chichester, West Sussex \|b John Wiley & Sons, Inc. \|c 2016
300			\|a 1 online resource
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500			\|a Includes bibliographical references and index
505	8		\|a Cover; Title Page; Copyright; Contents; List of Contributors; Preface; Chapter 1 Theoretical Studies and Tailored Computer Simulations in Self-Assembling Systems: A General Aspect; 1.1 Introduction; 1.2 Emerging Self-Assembling Principles; 1.2.1 Predictive Science and Rational Design of Complex Building Blocks; 1.2.2 Entropy-Driven Ordering and Self-Assembly; 1.2.3 Programmable Self-Assembly; 1.2.4 Self-Assembling Kinetics: Supracolloidal Reaction; Acknowledgments; References; Chapter 2 Developing Hybrid Modeling Methods to Simulate Self-Assembly in Polymer Nanocomposites; 2.1 Introduction
505	8		\|a 2.2 Methodology2.2.1 Dissipative Particle Dynamics; 2.2.2 Polymer Chains, Gels, and Nanoparticles; 2.2.3 Radical Polymerization Model; 2.3 Results and Discussions; 2.3.1 Modeling Bulk Polymerization Using FRP and ATRP; 2.3.2 Modeling Regeneration of Severed Polymer Gels with Interfacially Active Nanorods; 2.3.3 Modeling the Formation of Polymer-Clay Composite Gels; 2.4 Conclusions; Acknowledgments; References; Chapter 3 Theory and Simulation Studies of Self-Assembly of Helical Particles; 3.1 Introduction: Why Hard Helices?; 3.2 Liquid Crystal Phases; 3.3 Hard Helices: A Minimal Model
505	8		\|a 3.4 Numerical Simulations3.4.1 Monte Carlo in Various Ensembles; 3.4.1.1 Canonical Monte Carlo simulations (NVT-MC); 3.4.1.2 Isothermal-Isobaric Monte Carlo Simulations (NPT-MC); 3.4.2 Details on the MC Simulation of Hard Helices; 3.5 Onsager (Density Functional) Theory; 3.6 Onsager-Like Theory for the Cholesteric and Screw-Nematic Phases; 3.7 Order Parameters and Correlation Functions; 3.7.1 Nematic Order Parameter ; 3.7.2 Screw-Like Nematic Order Parameter; 3.7.3 Smectic Order Parameter; 3.7.4 Hexatic Order Parameter; 3.7.5 Parallel and Perpendicular Pair Correlation Functions
505	8		\|a 3.8 The Physical Origin of Cholesteric and Screw-Like Order3.9 The Phase Diagram of Hard Helices; 3.9.1 The Equation of State; 3.9.2 Phase Diagrams in the Volume Fraction-Pitch Plane; 3.9.2.1 Phase Diagram for r=0.1; 3.9.2.2 Phase Diagram for r=0.2; 3.9.2.3 Phase Diagram for r=0.4; 3.10 Helical (Bio)Polymers and Colloidal Particles; 3.11 Conclusions and Perspectives; Acknowledgments; References; Chapter 4 Self-Consistent Field Theory of Self-Assembling Multiblock Copolymers; 4.1 Introduction; 4.2 Theoretical Framework: Self-Consistent Field Theory of Block Copolymers
505	8		\|a 4.3 Numerical Methods of SCFT4.3.1 Reciprocal-Space Method; 4.3.2 Real-Space Method; 4.3.3 Pseudo-Spectral Method; 4.3.4 Fourth-Order Pseudo-Spectral Method; 4.4 Application of SCFT to Multiblock Copolymers; 4.5 Conclusions and Discussions; Acknowledgments; References; Chapter 5 Simulation Models of Soft Janus and Patchy Particles; 5.1 Introduction; 5.2 Soft Janus Particle Models; 5.2.1 Soft One-Patch Janus Particle Model; 5.2.2 Soft ABA-Type Triblock Janus Particle Model; 5.2.3 Soft BAB-Type Triblock Janus Particle Model; 5.2.4 Integration Algorithm; 5.3 Soft Patchy Particle Models
650		7	\|a Colloidal crystals \|2 fast
650		7	\|a Polymers \|2 fast
650		7	\|a Self-assembly (Chemistry) \|2 fast
650		7	\|a SCIENCE / Chemistry / Organic \|2 bisacsh
650		4	\|a Chemie
650		4	\|a Self-assembly (Chemistry)
650		4	\|a Colloidal crystals
650		4	\|a Polymers
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Datensatz im Suchindex

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author	Yan, Li-Tang 1978-
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contents	Cover; Title Page; Copyright; Contents; List of Contributors; Preface; Chapter 1 Theoretical Studies and Tailored Computer Simulations in Self-Assembling Systems: A General Aspect; 1.1 Introduction; 1.2 Emerging Self-Assembling Principles; 1.2.1 Predictive Science and Rational Design of Complex Building Blocks; 1.2.2 Entropy-Driven Ordering and Self-Assembly; 1.2.3 Programmable Self-Assembly; 1.2.4 Self-Assembling Kinetics: Supracolloidal Reaction; Acknowledgments; References; Chapter 2 Developing Hybrid Modeling Methods to Simulate Self-Assembly in Polymer Nanocomposites; 2.1 Introduction 2.2 Methodology2.2.1 Dissipative Particle Dynamics; 2.2.2 Polymer Chains, Gels, and Nanoparticles; 2.2.3 Radical Polymerization Model; 2.3 Results and Discussions; 2.3.1 Modeling Bulk Polymerization Using FRP and ATRP; 2.3.2 Modeling Regeneration of Severed Polymer Gels with Interfacially Active Nanorods; 2.3.3 Modeling the Formation of Polymer-Clay Composite Gels; 2.4 Conclusions; Acknowledgments; References; Chapter 3 Theory and Simulation Studies of Self-Assembly of Helical Particles; 3.1 Introduction: Why Hard Helices?; 3.2 Liquid Crystal Phases; 3.3 Hard Helices: A Minimal Model 3.4 Numerical Simulations3.4.1 Monte Carlo in Various Ensembles; 3.4.1.1 Canonical Monte Carlo simulations (NVT-MC); 3.4.1.2 Isothermal-Isobaric Monte Carlo Simulations (NPT-MC); 3.4.2 Details on the MC Simulation of Hard Helices; 3.5 Onsager (Density Functional) Theory; 3.6 Onsager-Like Theory for the Cholesteric and Screw-Nematic Phases; 3.7 Order Parameters and Correlation Functions; 3.7.1 Nematic Order Parameter ; 3.7.2 Screw-Like Nematic Order Parameter; 3.7.3 Smectic Order Parameter; 3.7.4 Hexatic Order Parameter; 3.7.5 Parallel and Perpendicular Pair Correlation Functions 3.8 The Physical Origin of Cholesteric and Screw-Like Order3.9 The Phase Diagram of Hard Helices; 3.9.1 The Equation of State; 3.9.2 Phase Diagrams in the Volume Fraction-Pitch Plane; 3.9.2.1 Phase Diagram for r=0.1; 3.9.2.2 Phase Diagram for r=0.2; 3.9.2.3 Phase Diagram for r=0.4; 3.10 Helical (Bio)Polymers and Colloidal Particles; 3.11 Conclusions and Perspectives; Acknowledgments; References; Chapter 4 Self-Consistent Field Theory of Self-Assembling Multiblock Copolymers; 4.1 Introduction; 4.2 Theoretical Framework: Self-Consistent Field Theory of Block Copolymers 4.3 Numerical Methods of SCFT4.3.1 Reciprocal-Space Method; 4.3.2 Real-Space Method; 4.3.3 Pseudo-Spectral Method; 4.3.4 Fourth-Order Pseudo-Spectral Method; 4.4 Application of SCFT to Multiblock Copolymers; 4.5 Conclusions and Discussions; Acknowledgments; References; Chapter 5 Simulation Models of Soft Janus and Patchy Particles; 5.1 Introduction; 5.2 Soft Janus Particle Models; 5.2.1 Soft One-Patch Janus Particle Model; 5.2.2 Soft ABA-Type Triblock Janus Particle Model; 5.2.3 Soft BAB-Type Triblock Janus Particle Model; 5.2.4 Integration Algorithm; 5.3 Soft Patchy Particle Models
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dewey-ones	547 - Organic chemistry
dewey-raw	547/.2
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dewey-tens	540 - Chemistry and allied sciences
discipline	Chemie / Pharmazie
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spelling	Yan, Li-Tang 1978- Verfasser aut Self-assembling systems theory and simulation edited by Li-Tang Yan, Department of Chemical Engineering, Tsinghua University, China Chichester, West Sussex John Wiley & Sons, Inc. 2016 1 online resource txt rdacontent c rdamedia cr rdacarrier Includes bibliographical references and index Cover; Title Page; Copyright; Contents; List of Contributors; Preface; Chapter 1 Theoretical Studies and Tailored Computer Simulations in Self-Assembling Systems: A General Aspect; 1.1 Introduction; 1.2 Emerging Self-Assembling Principles; 1.2.1 Predictive Science and Rational Design of Complex Building Blocks; 1.2.2 Entropy-Driven Ordering and Self-Assembly; 1.2.3 Programmable Self-Assembly; 1.2.4 Self-Assembling Kinetics: Supracolloidal Reaction; Acknowledgments; References; Chapter 2 Developing Hybrid Modeling Methods to Simulate Self-Assembly in Polymer Nanocomposites; 2.1 Introduction 2.2 Methodology2.2.1 Dissipative Particle Dynamics; 2.2.2 Polymer Chains, Gels, and Nanoparticles; 2.2.3 Radical Polymerization Model; 2.3 Results and Discussions; 2.3.1 Modeling Bulk Polymerization Using FRP and ATRP; 2.3.2 Modeling Regeneration of Severed Polymer Gels with Interfacially Active Nanorods; 2.3.3 Modeling the Formation of Polymer-Clay Composite Gels; 2.4 Conclusions; Acknowledgments; References; Chapter 3 Theory and Simulation Studies of Self-Assembly of Helical Particles; 3.1 Introduction: Why Hard Helices?; 3.2 Liquid Crystal Phases; 3.3 Hard Helices: A Minimal Model 3.4 Numerical Simulations3.4.1 Monte Carlo in Various Ensembles; 3.4.1.1 Canonical Monte Carlo simulations (NVT-MC); 3.4.1.2 Isothermal-Isobaric Monte Carlo Simulations (NPT-MC); 3.4.2 Details on the MC Simulation of Hard Helices; 3.5 Onsager (Density Functional) Theory; 3.6 Onsager-Like Theory for the Cholesteric and Screw-Nematic Phases; 3.7 Order Parameters and Correlation Functions; 3.7.1 Nematic Order Parameter ; 3.7.2 Screw-Like Nematic Order Parameter; 3.7.3 Smectic Order Parameter; 3.7.4 Hexatic Order Parameter; 3.7.5 Parallel and Perpendicular Pair Correlation Functions 3.8 The Physical Origin of Cholesteric and Screw-Like Order3.9 The Phase Diagram of Hard Helices; 3.9.1 The Equation of State; 3.9.2 Phase Diagrams in the Volume Fraction-Pitch Plane; 3.9.2.1 Phase Diagram for r=0.1; 3.9.2.2 Phase Diagram for r=0.2; 3.9.2.3 Phase Diagram for r=0.4; 3.10 Helical (Bio)Polymers and Colloidal Particles; 3.11 Conclusions and Perspectives; Acknowledgments; References; Chapter 4 Self-Consistent Field Theory of Self-Assembling Multiblock Copolymers; 4.1 Introduction; 4.2 Theoretical Framework: Self-Consistent Field Theory of Block Copolymers 4.3 Numerical Methods of SCFT4.3.1 Reciprocal-Space Method; 4.3.2 Real-Space Method; 4.3.3 Pseudo-Spectral Method; 4.3.4 Fourth-Order Pseudo-Spectral Method; 4.4 Application of SCFT to Multiblock Copolymers; 4.5 Conclusions and Discussions; Acknowledgments; References; Chapter 5 Simulation Models of Soft Janus and Patchy Particles; 5.1 Introduction; 5.2 Soft Janus Particle Models; 5.2.1 Soft One-Patch Janus Particle Model; 5.2.2 Soft ABA-Type Triblock Janus Particle Model; 5.2.3 Soft BAB-Type Triblock Janus Particle Model; 5.2.4 Integration Algorithm; 5.3 Soft Patchy Particle Models Colloidal crystals fast Polymers fast Self-assembly (Chemistry) fast SCIENCE / Chemistry / Organic bisacsh Chemie Self-assembly (Chemistry) Colloidal crystals Polymers Erscheint auch als Druckausgabe 978-1-119-11314-0 https://onlinelibrary.wiley.com/doi/book/10.1002/9781119113171 Verlag URL des Erstveröffentlichers Volltext
spellingShingle	Yan, Li-Tang 1978- Self-assembling systems theory and simulation Cover; Title Page; Copyright; Contents; List of Contributors; Preface; Chapter 1 Theoretical Studies and Tailored Computer Simulations in Self-Assembling Systems: A General Aspect; 1.1 Introduction; 1.2 Emerging Self-Assembling Principles; 1.2.1 Predictive Science and Rational Design of Complex Building Blocks; 1.2.2 Entropy-Driven Ordering and Self-Assembly; 1.2.3 Programmable Self-Assembly; 1.2.4 Self-Assembling Kinetics: Supracolloidal Reaction; Acknowledgments; References; Chapter 2 Developing Hybrid Modeling Methods to Simulate Self-Assembly in Polymer Nanocomposites; 2.1 Introduction 2.2 Methodology2.2.1 Dissipative Particle Dynamics; 2.2.2 Polymer Chains, Gels, and Nanoparticles; 2.2.3 Radical Polymerization Model; 2.3 Results and Discussions; 2.3.1 Modeling Bulk Polymerization Using FRP and ATRP; 2.3.2 Modeling Regeneration of Severed Polymer Gels with Interfacially Active Nanorods; 2.3.3 Modeling the Formation of Polymer-Clay Composite Gels; 2.4 Conclusions; Acknowledgments; References; Chapter 3 Theory and Simulation Studies of Self-Assembly of Helical Particles; 3.1 Introduction: Why Hard Helices?; 3.2 Liquid Crystal Phases; 3.3 Hard Helices: A Minimal Model 3.4 Numerical Simulations3.4.1 Monte Carlo in Various Ensembles; 3.4.1.1 Canonical Monte Carlo simulations (NVT-MC); 3.4.1.2 Isothermal-Isobaric Monte Carlo Simulations (NPT-MC); 3.4.2 Details on the MC Simulation of Hard Helices; 3.5 Onsager (Density Functional) Theory; 3.6 Onsager-Like Theory for the Cholesteric and Screw-Nematic Phases; 3.7 Order Parameters and Correlation Functions; 3.7.1 Nematic Order Parameter ; 3.7.2 Screw-Like Nematic Order Parameter; 3.7.3 Smectic Order Parameter; 3.7.4 Hexatic Order Parameter; 3.7.5 Parallel and Perpendicular Pair Correlation Functions 3.8 The Physical Origin of Cholesteric and Screw-Like Order3.9 The Phase Diagram of Hard Helices; 3.9.1 The Equation of State; 3.9.2 Phase Diagrams in the Volume Fraction-Pitch Plane; 3.9.2.1 Phase Diagram for r=0.1; 3.9.2.2 Phase Diagram for r=0.2; 3.9.2.3 Phase Diagram for r=0.4; 3.10 Helical (Bio)Polymers and Colloidal Particles; 3.11 Conclusions and Perspectives; Acknowledgments; References; Chapter 4 Self-Consistent Field Theory of Self-Assembling Multiblock Copolymers; 4.1 Introduction; 4.2 Theoretical Framework: Self-Consistent Field Theory of Block Copolymers 4.3 Numerical Methods of SCFT4.3.1 Reciprocal-Space Method; 4.3.2 Real-Space Method; 4.3.3 Pseudo-Spectral Method; 4.3.4 Fourth-Order Pseudo-Spectral Method; 4.4 Application of SCFT to Multiblock Copolymers; 4.5 Conclusions and Discussions; Acknowledgments; References; Chapter 5 Simulation Models of Soft Janus and Patchy Particles; 5.1 Introduction; 5.2 Soft Janus Particle Models; 5.2.1 Soft One-Patch Janus Particle Model; 5.2.2 Soft ABA-Type Triblock Janus Particle Model; 5.2.3 Soft BAB-Type Triblock Janus Particle Model; 5.2.4 Integration Algorithm; 5.3 Soft Patchy Particle Models Colloidal crystals fast Polymers fast Self-assembly (Chemistry) fast SCIENCE / Chemistry / Organic bisacsh Chemie Self-assembly (Chemistry) Colloidal crystals Polymers
title	Self-assembling systems theory and simulation
title_auth	Self-assembling systems theory and simulation
title_exact_search	Self-assembling systems theory and simulation
title_full	Self-assembling systems theory and simulation edited by Li-Tang Yan, Department of Chemical Engineering, Tsinghua University, China
title_fullStr	Self-assembling systems theory and simulation edited by Li-Tang Yan, Department of Chemical Engineering, Tsinghua University, China
title_full_unstemmed	Self-assembling systems theory and simulation edited by Li-Tang Yan, Department of Chemical Engineering, Tsinghua University, China
title_short	Self-assembling systems
title_sort	self assembling systems theory and simulation
title_sub	theory and simulation
topic	Colloidal crystals fast Polymers fast Self-assembly (Chemistry) fast SCIENCE / Chemistry / Organic bisacsh Chemie Self-assembly (Chemistry) Colloidal crystals Polymers
topic_facet	Colloidal crystals Polymers Self-assembly (Chemistry) SCIENCE / Chemistry / Organic Chemie
url	https://onlinelibrary.wiley.com/doi/book/10.1002/9781119113171
work_keys_str_mv	AT yanlitang selfassemblingsystemstheoryandsimulation

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