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Thesis Structure Analysis - Coggle Diagram
Thesis Structure Analysis
Jack Evans - Layer-by-layer manufacture of improved energy storage devices (35-37)
2.3 Novel structuring & manufacturing (20)
2.3.1 Microbatteries (1)
2.3.2 Templating (9)
2.3.2.2 Ice templating
2.3.2.1 Particle structuring
2.3.3 Deposition techniques (8)
2.3.3.2 Direct writing
2.3.3.3 Spray deposition
2.3.3.1 Thin-film
2.4 Conclusions (2)
2.2 Conventional electrode manufacturing (7)
2.2.3 Calendering
2.2.2 Conventional modifications to improve cell performance
2.2.4 Particle size
2.2.1 Slurry coating
2.2.5 Surface coating and conductive additives
2.1 The Li-ion cell (6)
Yingwei Wu - Additive Manufacturing of Graded and Anisotropic Materials for Applications at Microwave Frequencies (39)
2.1 Transformation Optics (TO) Inspired Materials (14)
2.1.1 Transformation optics theory and key parameters (3)
2.1.2 Graded and anisotropic composite materials (5)
2.1.3 Characterization techniques (4)
2.1.4 Summary (1)
2.2 Manufacturing Methods (25)
2.2.1 Conventional methods (5)
Casting (1)
Other methods (1)
Extrusion (2)
Spray deposition of polymer composites (1)
2.2.2 Additive manufacturing (18)
Stereolithography (SLA) (3)
Polyjet (3)
Fused flament fabrication (11)
2.2.3 Summary (1)
Yunqi Wang - Processing and Properties of Polymer-based Composites for Metamaterials Applications (45)
2.2 Macroscopic Electromagnetic Parameters: Permittivity and Permeability (12)
2.2.2 Permeability
2.2.2.1 Definitions and General Relations of Magnetics
2.2.2.2 Classes of Magnetic Materials
2.2.2.3 Magnetics Loss and Frequency Behaviour
2.2.1 Permittivity
2.2.1.1 Definitions and General Relations of Dielectrics
2.2.1.2 Frequency Dependence of the Relative Permittivity
2.2.1.3 Dielectric Loss
2.3 Design and Manufacture of Metamaterials (11)
2.3.2 Manufacturing Technologies
2.3.1 Structures of Metamaterials
2.3.1.2 Conducting Nanowire Media
2.3.1.3 Fishnet and Swiss-cross Structures
2.3.1.1 Split Ring Resonator
2.3.1.4 Nanostructured Composite Metamaterials
2.1 Metamaterials (11)
2.1.2 Spatial Transformation Technique
2.1.1 Fundamentals and Applications
2.1.1.2 Biosensor
2.1.1.3 Cloaking
2.1.1.1 Superlens
2.4 Metamaterials Based on Polymer/filler Composites for Electromagnetic Applications (10)
2.4.2 Composites Comprising Polymers and
Inorganic Fillers
2.4.2.2 Magnetic Composites
2.4.2.1 Dielectric Composites
2.4.3 Periodic Composite Structures
2.4.1 Mixing Rules for Composites
2.5 Summary (1)
Meng Jiang - Processing and Properties of Nanostructured Thin Film Energy Storage Devices (34)
2.2 Optimization of the performance of electrochemical supercapacitors (10)
2.2.3 Pore size distribution and structure
2.2.4 Surface treatment
2.2.4.1 Physical activation
2.2.4.2 Surface functionalization
2.2.2 Resistance
2.2.5 Electrolytes
2.2.5.1 Operating voltage
2.2.5.2 Electrolyte conductivity and viscosity
2.2.1 Key parameters of cell design
2.2.6 Current collector
2.3 Thin film processing techniques (10)
2.3.4 Dip-coating
2.3.5 Two-dimensional colloidal crystal templates
2.3.3 Roll-to-roll processing and transfer
2.3.6 Electrophoretic deposition
2.3.2 Inkjet printing
2.3.7 Spray deposition
2.3.1 Vacuum filtration
2.1 Carbon-based supercapacitors (14)
2.1.2 Three dimensional porous carbons
2.1.2.2 Microporous carbon
2.1.2.1 Commercial activated carbons
2.1.2.3 Mesoporous carbon
2.1.2.4 Hierarchical carbon
2.1.3 Two dimensional carbon - graphene
2.1.1 Overview of carbon materials
2.1.4 One dimensional carbon - carbon nanotubes
Qianfang Zheng - 3D printing and additive manufacturing of microwave materials and devices
2.2 Conventional manufacturing methods (5-10)
2.3 Additive manufacturing (20)
2.1 microwave materials and devices (10)
microwave devices
RF Lenses / Wave Propagation
Antenna
Waveguide devices
Microwave Filters
Dielectric resonator antenna
Waveguide horn antenna
microwave materials
common microwave materials
Magenic materials
Dielectric materials
Metal and conductive materials
Other materals
Key parameters
Permittivity
Permeability
What is microwave materials
2.4 Summary (1)