Polymer Nanocomposites in Emulsion and Suspension: an Overview / Vikas MittalChapter 1: |
Polymer Nanocomposites / 1.1: |
Synthesis Methodologies for Polymer Nanocomposites / 1.2: |
Template S ynthesis / 1.2.1: |
In Situ Intercalative Polymerization / 1.2.2: |
Melt Intercalation / 1.2.3: |
Intercalation of Polymer or Prepolymer from Solution / 1.2.4: |
Polymer Nanocomposites in Emulsion and Suspension / 1.3: |
Acknowledgment |
References |
Polymer-Layered Double Hydroxide Nanocomposites by Emulsion and Suspension Polymerization / Longzhon Qiu ; Baojun QuChapter 2: |
Introduction / 2.1: |
Layered Double Hydroxides / 2.2: |
Structure of LDHs / 2.2.1: |
Properties of LDHs / 2.2.2: |
Synthesis of LDHs / 2.2.3: |
Organic Modification of LDHs / 2.2.4: |
Polymer-LDH Nanocomposites / 2.3: |
Structure of Polymer-LDH Nanocomposites / 2.3.1: |
Conventional Strategies for Preparing Polymer-LDH Nanocomposites / 2.3.2: |
Polymer-LDH Nanocomposites Prepared by Emulsion and Suspension Polymerization / 2.4: |
Emulsion and Suspension Polymerization / 2.4.1: |
Preparation of Polymer-LDH Nanocomposites via Emulsion and Suspension Polymerization / 2.4.2: |
Properties and Potential Applications of Polymer-LDH Nanocomposites Obtained From Suspension and Emulsion Polymerization / 2.4.3: |
Conclusion / 2.5: |
Acknowledgments |
Polymer-Clay Nanocomposite Particles by Direct and Inverse Emulsion Polymerization / Weihua (Marshall) Ming, Dirk-Jan Voorn ; Alex M. van HerkChapter 3: |
Polymer-Clay Nanocomposite Particles by Direct Emulsion Polymerization / 3.1: |
Polymer-Clay Nanocomposite Particles by Inverse Emulsion Polymerization / 3.3: |
Clay Encapsulation by Emulsion Polymerization / 3.4: |
General Approaches in Encapsulation of Inorganic Particles (in General) by Emulsion Polymerization / 3.4.1: |
Encapsulation of Clay by (Mini)emulsion Polymerization / 3.4.2: |
PMMA-based Montmorillonite Nanocomposites by Soap-free Emulsion Polymerization King-Fu Lin and Keng-Jen Lin / Chapter 4: |
Fabrication of PMMA Nanocomposites Through Soap-free Emulsion Polymerization / 4.1: |
Soap-free Emulsion Polymerization / 4.2.1: |
Exfoliated MMT -PMMA Nanocomposites by Soap-free Emulsion Polymerization / 4.2.2: |
Structure and Mechanical Properties of Exfoliated MMT-P(MA-co-MMA) Films / 4.3: |
Grafting of P(MA-co-MMA) Chains on to Exfoliated MMT Nanoplatelets / 4.3.1: |
Mechanical Properties of Exfoliated MMT-P(MA-co-MMA) Nanocomposite Film / 4.3.2: |
Structure-Thermomechanical Property Relationship of Exfoliated MMT ûP (MA-co-MMA) Nanocomposite Films / 4.3.3: |
Physical Properties of Exfoliated MMT ûPMMA Nanocomposite Films / 4.4: |
Acrylic-Clay Nanocomposites by Suspension and Emulsion Polymerization / Urška Šebenik ; Matja Krajnc4.5: |
Pressure-sensitive Adhesives Reinforced with Clays / 5.1: |
Synthesis and Structure Characterization of Acrylic-Clay Nanocomposite Pressure-sensitive Adhesives / 5.3: |
Properties of Acrylic-Clay Nanocomposite Pressure-sensitive Adhesives / 5.4: |
Biodegradable Polymer-Clay Nanocomposite Fire Retardants via Emulsifier-free Emulsion Polymerization / Prafulla Kumar Sahoo5.5: |
Experimental / 6.1: |
Materials / 6.2.1: |
Preparation of Nanocomposite / 6.2.2: |
Characterization / 6.2.3: |
Flame Retardancy / 6.2.4: |
Biodegradation by Activated Sludge / 6.2.5: |
Results and Discussion / 6.3: |
FTIR Spectroscopy / 6.3.1: |
XRD Analysis / 6.3.2: |
TEM Analysis / 6.3.3: |
Thermal Analysis / 6.3.4: |
Mechanical Properties / 6.3.5: |
Biodegradation / 6.3.6: |
Abbreviations / 6.4: |
Polymer Nanocomposites Prepared by Suspension Polymerization of Inverse Emulsion / Jintao. Yang ; Sin Zhu ; L. James LeeChapter 7: |
Preparation of Polymer Nanocomposites via Inverse (Mini)emulsion Polymerization / 7.1: |
Preparation of Polymer Nanocomposites via Suspension Polymerization / 7.3: |
Polymer Synthesis via Suspension Polymerization of Inverse Emulsion / 7.4: |
Preparation of Polymer Nanocomposites via Suspension Polymerization of Inverse Emulsion / 7.5: |
Polymer Nanocomposites by Radiolytic Polymerization / Seong-Ho Choi ; Hai-Doo Kwen7.6: |
Preparation of Polymer-Clay Nanocomposites by ?-Irradiation Polymerization / 8.1: |
Preparation of Polymer-Metal Nanocomposites by ?-Irradiation Polymerization |
Preparation of Polymer-CNT Nanocomposites by ?-Irradiation Polymerization |
Polymer-Magnesium Hydroxide Nanocomposites by Emulsion Polymerization / Xiao-Lin Xie ; Sheng-Peng Liu ; Fei-Peng Du ; Yin- Wing MaiChapter 9: |
Structure, Thermal Decomposition of MHs and Synthesis of MH Nanostructures / 9.1: |
Crystal Structure of MHs / 9.2.1: |
Thermal Decomposition of MHs / 9.2.2: |
Synthesis of MH Nanostructures / 9.2.3: |
Polymer-MH Nanocomposites by Emulsion Polymerization / 9.3: |
In Situ Monomer-Nano-MH Emulsion Polymerization / 9.3.1: |
In situ Combined Process of Precipitation and Emulsion Polymerization / 9.3.2: |
Surface-initiated In'Situ Polymerization / 9.3.3: |
Properties of Polymer-MH Nanocomposites by Emulsion Polymerization / 9.4: |
Thermal Stability / 9.4.1: |
Flammability / 9.4.2: |
Rheological Properties / 9.4.3: |
Conclusions and Future Trends / 9.5: |
Polymer-Clay Nanocomposites by Miniemulsion Polymerization / Matej MicuÃœik ; Yuri Reyes ; Maria Paulis ; Jose Ramon LeizaChapter 10: |
Organomodification of Clay / 10.1: |
Morphology of Hybrid Monomer-Clay Miniemulsion Droplets/Particles / 10.3: |
Pickering Miniemulsion / 10.3.1: |
Encapsulation of Clay / 10.3.2: |
Kinetics of Miniemulsion Polymerization in the Presence of Clay / 10.4: |
Final Properties of Polymer-Clay Nanocomposites Prepared by Miniemulsion Polymerization / 10.5: |
Towards Real Applications: High Solids Content and Reproducible Latexes / 10.7: |
Conculsion |
PAN-Silica-Clay. Nanocomposites by Emulsion Polymerization / Chunhua Cai ; Jiaping Lin ; Lan WeiChapter 11: |
Synthesis and Structure of Polymer-Clay-Silica Nanocomposites / 11.1: |
Thermal Properties of Polymer-Clay-Silica Nanocomposites / 11.3: |
Mechanical Properties of Polymer-Clay-Silica Nanocomposites / 11.4: |
Polymer-Clay Nanocomposites Prepared in Miniemulsion Using the RAFT Procesa / Ecldson Zengeni ; Austin Samakande ; Patrice C. Hartmann11.5: |
Background to Controlled/Living Polymerization Using the RAFT Process / 12.1: |
Controlled Polymerization Techniques and Their Applicability to PCNs / 12.4: |
Preparation and Characterization of RAFT-mediated PCNs in Miniemulsion / 12.5: |
Physical Properties of RAFT-mediated Polymer-Clay Nanocomposites / 12.6: |
Thermomechanical Properties / 12.5.1: |
Polymer-Clay Nanocomposite Particles and Soap-free Latexes Stabilized by Clay Platelets: State of the Art and Recent Advances / Elodie Bourgeat-Lami ; Nida Sheibat-Othman ; Amilton Martins Dos Santos12.5.2: |
Clay Structure / 13.1: |
Polymer-Clay Nanocomposites Produced by Conventional Emulsion Polymerization / 13.3: |
Polymer-MMT Composite Latexes / 13.3.1: |
Polymer-Laponite Nanocomposite Latexes / 13.3.2: |
Soap-free Latexes Stabilized by Clay Platelets / 13.4: |
Pickering Suspension and Miniemulsion Polymerizations: a Brief Overview / 13.4.1: |
Soap-free Emulsion Polymerization Stabilized by Inorganic Solids / 13.4.2: |
Laponite-armored Latexes Produced by Soap-free Emulsion Polymerization / 13.4.3: |
Modeling and Online Monitoring by Calorimetry of the Preparation of Polymer-Laponite Nanocomposite Particles / 13.4.4: |
Conclusions and Outlook / 13.5: |
Subject Index |
Polymer Nanocomposites in Emulsion and Suspension: an Overview / Vikas MittalChapter 1: |
Polymer Nanocomposites / 1.1: |
Synthesis Methodologies for Polymer Nanocomposites / 1.2: |