Comparison of properties between NIPAAm-based simultaneously physically and chemically gelling polymer systems for use in vivo

Engineering & Materials Science

• Gelation 100%
• Gels 75%
• Polymers 52%
• Hydrogels 26%
• Swelling 22%
• Elastic moduli 17%
• Cytotoxicity 15%
• Crosslinking 12%
• Copolymers 12%
• Rheology 11%
• Superconducting transition temperature 11%
• Structural properties 11%
• Phase transitions 10%
• Cells 10%
• Thermodynamic properties 9%
• Creep 8%
• Scanning electron microscopy 8%
• Degradation 7%
• Mechanical properties 6%
• Temperature 4%

Medicine & Life Sciences

• Polymers 64%
• Gels 59%
• Elastic Modulus 24%
• Sulfhydryl Compounds 22%
• Hydrogels 22%
• Transition Temperature 14%
• Phase Transition 13%
• Rheology 12%
• Electron Scanning Microscopy 10%
• Aneurysm 9%
• Hot Temperature 8%
• Kinetics 7%
• Temperature 7%
• Growth 5%
• poly(NIPAAm-co-cysteamine) 4%
• poly(N-isopropylacrylamide-co-hydroxyethyl methacrylate-acrylate) 1%

Chemical Compounds

• Gel 44%
• Thiol 17%
• Hydrogel 16%
• Creep 12%
• Phase Transition Temperature 11%
• Rheology 9%
• Copolymer 6%
• Scanning Electron Microscopy 6%