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

Chemistry

• Protein 100%
• Graphene 100%
• Nanocomposite 100%
• Chitin 100%
• Cellulose 100%
• Biopolymer 60%
• Biomimetics 60%
• Structure 60%
• Concentration 40%
• Mechanical Property 40%
• Strength 40%
• Toughness 40%
• Calcium Carbonate 20%
• Nanofibrillar Cellulose 20%
• Atom 20%
• Density 20%
• Mixture 20%
• Length 20%
• Humidity 20%
• Stiffness 20%
• Bone 20%
• Chitin Binding 20%

Material Science

• Protein 100%
• Nanocomposites 100%
• Chitin 100%
• Graphene 100%
• Material 100%
• Covalent Modification 100%
• Biopolymer 60%
• Mechanical Strength 40%
• Mechanical Property 40%
• Toughness 40%
• Self Assembly 20%
• Natural Material 20%
• Biomimetic Material 20%
• Nacre 20%
• Wood 20%
• Materials Structure 20%
• Materials Property 20%
• Mixture 20%
• Density 20%
• Engineering Material 20%
• Stiffness 20%
• Calcium 20%

Engineering

• Covalent 100%
• Nanocomposites 100%
• Binding Domain 60%
• Networks 60%
• Properties 60%
• Molecular Level 40%
• Performance 40%
• Design 40%
• Engineering 40%
• Mechanical Properties 40%
• Length Scale 20%
• Macroscopic 20%
• Level Control 20%
• Mild Condition 20%
• Functional Component 20%
• Mineralisation 20%
• Rule of Mixture 20%
• Development 20%
• Assembly 20%
• Combines 20%
• Elements 20%
• High Density 20%
• Hierarchical Structure 20%