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Intro; Contents; Metal-Organic Framework Composites IPMC Sensors and Actuators; 1 Introduction; 2 Design and Synthesis; 3 Properties and Applications; 3.1 Nano/Molecular Machines Based Actuators; 3.2 pH Sensors/Actuators; 3.3 VOC Sensors; 3.4 Humidity Sensors; 3.5 Energy Conversion Device; 4 Conclusions and Future Outlook; References; Polysaccharide-Based Ionic Polymer Metal Composite Actuators; 1 Introduction; 2 Cellulose-Based Actuators; 2.1 Cellulose-Graphene Composite Actuators; 2.2 Cellulose-Polyethylene Glycol Composite Actuator; 2.3 Cellulose-Glycerol Composite Actuators
2.4 Cross-Linked Cellulose Based Actuator2.5 Cellulose Electroactive-Paper Actuator; 3 Chitosan-Based Actuators; 3.1 Chitosan-Graphene Oxide Nanocomposites Actuator; 3.2 Chitosan-Carbon Nanotubes Nanocomposites Actuator; 3.3 Cross-Linked Chitosan-Based Actuator; 4 Conclusions; References; Conducting Polymer Based Ionic Polymer Metal Composite Actuators; 1 Introduction; 2 Fabrication and Operating Principles; 3 Electronic Conducting Polymer (Conjugated Polymer); 3.1 Polyaniline (PANI); 3.2 Polypyrrole (PPy); 3.3 Polythiophene (PT); 3.4 PEDOT:PSS; 4 Conclusion; References
Role of Metal Ion Implantation on Ionic Polymer Metal Composite Membranes1 Introduction; 2 Understanding State of Ionic Polymer-Metal Composite Structure; 2.1 Manufacturing Technique; 2.2 Metallic Ion Implantation; 3 Modeling and Control of Ionic Polymer-Metal Composite Actuation; 3.1 Layered Structure of Ionic Polymer-Metal Composite; 3.2 Actuation Mechanism of Ionic Polymer-Metal Composites; 3.3 Actuators Based on Ionic Polymer-Metal Composite Membranes; 4 Actuation Performance of Actuators Based on Ionic Polymer-Metal Composite Membranes in Different Applications; 5 Conclusions; References
Study on Time-Dependent Bending Response of IPMC Actuator1 Introduction; 2 Overview of IPMC; 2.1 Structure of IPMC; 2.2 Application of IPMC; 3 Fundamental Theory; 3.1 Bending Characteristics of IPMC; 3.2 IPMC Actuation; 3.3 IPMC-Fluid Interaction; 4 Modeling of IPMC Actuator; 4.1 Electrostatic AC/DC; 4.2 Transport of Diluted Species; 4.3 Fluid-Structure Interaction; 4.4 Weak Form; 4.5 Particle Tracing; 4.6 Meshing; 4.7 Moving Mesh; 4.8 Solver; 4.9 Boundary Conditions; 5 Analysis of Time-Dependent Bending Response of IPMC Actuator; 5.1 Kinetic Energy of IPMC Actuator
5.2 Potential Energy of IPMC Actuator5.3 Governing Equation of IPMC Actuator; 5.4 Analytic Results of Time-Dependent Bending Response of IPMC Actuator; 6 Analysis of IPMC Actuator for Micropump Applications; 6.1 Three-Dimensional IPMC Actuator; 6.2 IPMC Micropump; 6.3 Double IPMC Micropump; 6.4 Mesh Convergence; 6.5 IPMC Cilia Micropump; 7 Summary; References; Ionic Polymer-Metal Composite Membranes Methods of Preparation; 1 Introduction; 2 Ionic Polymer-Metal Composite (IPMC) Membranes Methods of Preparation; 3 Conclusions; References
2.4 Cross-Linked Cellulose Based Actuator2.5 Cellulose Electroactive-Paper Actuator; 3 Chitosan-Based Actuators; 3.1 Chitosan-Graphene Oxide Nanocomposites Actuator; 3.2 Chitosan-Carbon Nanotubes Nanocomposites Actuator; 3.3 Cross-Linked Chitosan-Based Actuator; 4 Conclusions; References; Conducting Polymer Based Ionic Polymer Metal Composite Actuators; 1 Introduction; 2 Fabrication and Operating Principles; 3 Electronic Conducting Polymer (Conjugated Polymer); 3.1 Polyaniline (PANI); 3.2 Polypyrrole (PPy); 3.3 Polythiophene (PT); 3.4 PEDOT:PSS; 4 Conclusion; References
Role of Metal Ion Implantation on Ionic Polymer Metal Composite Membranes1 Introduction; 2 Understanding State of Ionic Polymer-Metal Composite Structure; 2.1 Manufacturing Technique; 2.2 Metallic Ion Implantation; 3 Modeling and Control of Ionic Polymer-Metal Composite Actuation; 3.1 Layered Structure of Ionic Polymer-Metal Composite; 3.2 Actuation Mechanism of Ionic Polymer-Metal Composites; 3.3 Actuators Based on Ionic Polymer-Metal Composite Membranes; 4 Actuation Performance of Actuators Based on Ionic Polymer-Metal Composite Membranes in Different Applications; 5 Conclusions; References
Study on Time-Dependent Bending Response of IPMC Actuator1 Introduction; 2 Overview of IPMC; 2.1 Structure of IPMC; 2.2 Application of IPMC; 3 Fundamental Theory; 3.1 Bending Characteristics of IPMC; 3.2 IPMC Actuation; 3.3 IPMC-Fluid Interaction; 4 Modeling of IPMC Actuator; 4.1 Electrostatic AC/DC; 4.2 Transport of Diluted Species; 4.3 Fluid-Structure Interaction; 4.4 Weak Form; 4.5 Particle Tracing; 4.6 Meshing; 4.7 Moving Mesh; 4.8 Solver; 4.9 Boundary Conditions; 5 Analysis of Time-Dependent Bending Response of IPMC Actuator; 5.1 Kinetic Energy of IPMC Actuator
5.2 Potential Energy of IPMC Actuator5.3 Governing Equation of IPMC Actuator; 5.4 Analytic Results of Time-Dependent Bending Response of IPMC Actuator; 6 Analysis of IPMC Actuator for Micropump Applications; 6.1 Three-Dimensional IPMC Actuator; 6.2 IPMC Micropump; 6.3 Double IPMC Micropump; 6.4 Mesh Convergence; 6.5 IPMC Cilia Micropump; 7 Summary; References; Ionic Polymer-Metal Composite Membranes Methods of Preparation; 1 Introduction; 2 Ionic Polymer-Metal Composite (IPMC) Membranes Methods of Preparation; 3 Conclusions; References