Bio-Inspired Amphoteric Polymer for Triggered-Release Drug Delivery on Breast Cancer Cells Based on Metal Coordination

Engineering & Materials Science

• Drug delivery 100%
• Cells 72%
• Polymers 54%
• Metals 47%
• Cell death 44%
• Encapsulation 33%
• Nanoparticles 29%
• Polyphenols 24%
• Complexation 24%
• Chelation 22%
• Block copolymers 20%
• Cell membranes 19%
• Positive ions 18%
• Biocompatibility 18%
• Surface structure 17%
• Molar ratio 17%
• Amino acids 17%
• Polymerization 16%
• Emulsions 16%
• Water 16%
• Tumors 15%
• Particle size 13%
• Proteins 13%
• Hydrodynamics 12%
• Oils 9%

Chemical Compounds

• Curcumin 48%
• Drug 39%
• Metal 33%
• Block Like Crystal 21%
• Encapsulation 18%
• Water Insoluble 11%
• Antifouling 11%
• Surface Composition 11%
• Polyphenol 10%
• Diblock Copolymer 10%
• Nanoparticle 10%
• Cell Viability 10%
• Chelating Agent 10%
• Hydrodynamics 10%
• Acrylate 9%
• Emulsion 8%
• Complexation 8%
• Metal Ion 6%
• Mixture 4%
• pH Value 4%
• Protein 4%
• Acid 3%
• Surface 3%