Degradable NIR-PTT Nanoagents with a Potential Cu@Cu₂O@Polymer Structure

Keyphrases

• Biodegradation 11%
• Cancer Cells 11%
• Cell Viability 11%
• Cu(II) Ions 22%
• Cu-based 11%
• Cu-based Nanocomposites 11%
• Cu@Cu2O 100%
• Culture Media 11%
• Degradable 100%
• Degradation Resistance 11%
• Feature Combination 11%
• Halide Ions 11%
• Heating Temperature 11%
• HeLa Cells 22%
• Hydrogen Electrode 22%
• Hydrogen Peroxide 22%
• IC50 11%
• In Vitro Assay 11%
• Injury Rate 11%
• Ion Content 11%
• Light-emitting Diodes 11%
• Low Cytotoxicity 11%
• Low pH Condition 11%
• Nanoagents 100%
• Near-infrared 11%
• Near-infrared Absorption 22%
• Near-infrared Photothermal Therapy 100%
• Normal Hydrogen 22%
• Optical Properties 11%
• Oxidation Reaction 11%
• Oxidation Resistance 11%
• Photoablation 11%
• Photothermal Therapy 22%
• Physiological Environment 11%
• Polymer Nanoparticles 11%
• Polymer Structure 100%
• Reaction Parameters 11%
• Reaction Time 11%
• Reactive Oxygen Species Production 11%
• Redox-active 11%
• Shape Properties 11%
• Shape Structure 11%
• Structure-property Relationships 11%
• Supernatant 11%
• Tailorable 11%
• Water Medium 11%

Material Science

• Biodegradation 50%
• Copper Ion 100%
• Halide 50%
• Hydrogen Peroxide 100%
• Light-Emitting Diode 50%
• Nanocomposite 50%
• Optical Property 50%
• Oxidation Resistance 50%
• Polymer Nanoparticles 50%
• Polymer Structure 100%

Chemical Engineering

• Biodegradation 50%
• Hydrogen Peroxide 100%
• Nanoparticle 50%