Bioinspired materials: Non-covalent modification of nanofibrillated cellulose and chitin via genetically engineered proteins and multilayered graphene: Dissertation

Keyphrases

• Biomaterials 100%
• Nanofibrillated Cellulose 100%
• Genetic Engineering 100%
• Chitin 100%
• Multilayered Graphene 100%
• Non-covalent Modification 100%
• Engineered Protein 100%
• Fusion Protein 40%
• Graphene Flakes 40%
• Biopolymer Matrix 40%
• Cellulose-binding Domain 40%
• Nanocomposite Materials 40%
• Self-assembly 20%
• Hydrophobin 20%
• Toughness 20%
• Stiffness 20%
• Mechanical Properties 20%
• High Performance 20%
• High Density 20%
• Material Properties 20%
• Wood 20%
• Material Structure 20%
• Multiple Length Scales 20%
• Natural Materials 20%
• Conceptual Structure 20%
• Functional Components 20%
• Engineering Materials 20%
• Carbonate 20%
• Hierarchical Structure 20%
• Biomimetic Approach 20%
• Biomimetic 20%
• Reinforcing Elements 20%
• Soft Phase 20%
• Biomimetic Materials 20%
• Soft Matrix 20%
• Mutually Exclusive 20%
• Improved Mechanical Properties 20%
• Nanofibrillated 20%
• Chitin-binding Domain 20%
• Biomimetic Mineralization 20%
• Exfoliating 20%
• Lightweight Structures 20%
• Level Control 20%
• Biopolymer Networks 20%
• Nacre 20%
• Ionic Interaction 20%
• Biomimetic Nanocomposite 20%
• Biological Components 20%
• Controlled Humidity 20%
• Strength-toughness 20%
• Level Design 20%
• Organic Matrix 20%
• Multifunctional Nanocomposites 20%
• Rule of Mixtures 20%
• Structural Nanocomposites 20%
• Hard Phase 20%
• Concepts of Nature 20%
• Efficient Route 20%
• Macroscopic Material 20%
• Natural Nanocomposite 20%

INIS

• modifications 100%
• proteins 100%
• graphene 100%
• cellulose 100%
• matrices 100%
• nanocomposites 100%
• chitin 100%
• biomimetics 80%
• performance 40%
• levels 40%
• control 40%
• engineering 40%
• interfaces 40%
• design 40%
• mechanical properties 40%
• wood 20%
• mixtures 20%
• density 20%
• interactions 20%
• stiffness 20%
• length 20%
• humidity 20%
• bones 20%
• mimic 20%
• mineralization 20%
• calcium carbonates 20%

Material Science

• Graphene 100%
• Covalent Modification 100%
• Bioinspired Material 100%
• Nanocomposite 100%
• Biopolymer 60%
• Natural Material 20%
• Nacre 20%
• Chitin Binding 20%
• Materials Structure 20%
• Materials Property 20%
• Density 20%
• Engineering Material 20%
• Self Assembly 20%
• Biomimetic Material 20%