Material Science
Hybrid Material
100%
Silicon Dioxide
64%
Mechanical Strength
62%
Organic Polymer
53%
Polymer Network
42%
Hydrogel
42%
Titanium Dioxide
42%
Thermal Stability
28%
Cationic Ring-Opening Polymerization
28%
Young's Modulus
24%
Biocompatibility
16%
Silica Nanoparticle
16%
Sol-Gel
14%
Density
14%
Hydrogen Bonding
14%
Biomaterial
14%
Biodegradation
14%
Polymerization
14%
Scaffold for Tissue Engineering
14%
Polymer Matrix
14%
Elastic Moduli
14%
Mechanical Testing
14%
Fracture Behavior
10%
Inorganic Polymer
10%
Inorganic Glass
10%
Covalent Modification
10%
Sodium
10%
Shape Memory
5%
Cell Proliferation
5%
Design Principle
5%
Keyphrases
Tetrahydropyran
42%
High Stretchability
42%
Sweat-resistant
42%
Double Polymer Network
42%
Interpenetrating Network Hydrogel
28%
Tough Hydrogels
14%
Self-healing Behavior
14%
Ionic Crosslinking
14%
Swelling Resistance
14%
Bioactive Hydrogel
14%
Shape Memory Effect
14%
High-strength Hydrogels
14%
Reversible Interaction
14%
Polymer Content
10%
Fracture Point
10%
Non-covalent Intermolecular Interaction
10%
C-C Bond
10%
Bone Scaffold Materials
10%
Bioenvironment
10%
Functional Hybrid Materials
10%
Biomaterial Applications
10%
Cross-condensation
10%
Gel Polymer
10%
Cationic Ring-opening Polymerization
10%
Enhanced Thermal Stability
7%
Scaffold for Tissue Engineering
7%
Multiple Toughening
7%
Inorganic Hybrid
7%
Tetrahydrofuran
7%