Conducting Polymers
portes grátis
Conducting Polymers
Chemistries, Properties and Biomedical Applications
Gupta, Ram K.
Taylor & Francis Ltd
04/2022
340
Dura
Inglês
9781032071091
15 a 20 dias
453
Descrição não disponível.
1. Conducting Polymers: An Introduction 2. Conducting Polymers: Fundamentals to Biomedical Applications 3. Conducting Polymers: Fundamentals, Synthesis, Properties, and Applications 4. Chemistries and Biodegradability of Conducting Polymers 5. Strategies to Synthesize Biodegradable Conducting Polymers 6. Biodegradable Polymers: Synthesis to Advanced Biomedical Applications 7. Hybrid Conductive Polymers: Synthesis, Properties, and Multifunctionality 8. Electrically Conductive Polymers and Composites for Biomedical Applications 9. Conducting Polymers for Gene Delivery 10. Conducting Polymers for Regenerative Medicine 11. Conducting Polymers as Efficient Materials for Tissue Engineering 12. Conducting Polymer-Based Nanomaterials for Tissue Engineering 13. Conducting Polymers for Neural Tissue Engineering 14. Conducting Polymers for Ophthalmic Applications 15. Conducting Polymers for Biomedical Imaging 16. Conducting Polymer-Based Micro-Containers for Biomedical Applications 17. Antimicrobial Activities of Conducting Polymers and Their Derivatives 18. Biodegradable Electronic Devices 19. Microfluidic Devices with Integrated Conductive Polymeric Electrodes for Biosensing Applications 20. Advantages and Challenges of Biodegradable Electronic Devices 21. Conducting Polymers: An Efficient Way to Deal with Medical and Industrial Fouling 22. Antifouling Properties and Biomedical Applications of Conducting Polymers
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Conducting polymers;biodegradable polymers;biomedical;drug delivery;tissue engineering;biosensors;PPy;American Chemical Society;PCL;Sodium Dodecyl Benzenesulfonate;Drug Release;Organic Field Effect Transistors;Tissue Engineering Applications;PDMS;Mesenchymal Stem Cells;Dodecylbenzene Sulfonic Acid Sodium Salt;Electrical Stimulation;Electroactive CPs;Neural Tissue Engineering;Antifouling Properties;Benzenesulfonic Acid Sodium Salt;Conducting Hydrogels;ROP;Drug Delivery Systems;Molecular Orbital;Radical Cations;BRCA1;Conductive Fillers
1. Conducting Polymers: An Introduction 2. Conducting Polymers: Fundamentals to Biomedical Applications 3. Conducting Polymers: Fundamentals, Synthesis, Properties, and Applications 4. Chemistries and Biodegradability of Conducting Polymers 5. Strategies to Synthesize Biodegradable Conducting Polymers 6. Biodegradable Polymers: Synthesis to Advanced Biomedical Applications 7. Hybrid Conductive Polymers: Synthesis, Properties, and Multifunctionality 8. Electrically Conductive Polymers and Composites for Biomedical Applications 9. Conducting Polymers for Gene Delivery 10. Conducting Polymers for Regenerative Medicine 11. Conducting Polymers as Efficient Materials for Tissue Engineering 12. Conducting Polymer-Based Nanomaterials for Tissue Engineering 13. Conducting Polymers for Neural Tissue Engineering 14. Conducting Polymers for Ophthalmic Applications 15. Conducting Polymers for Biomedical Imaging 16. Conducting Polymer-Based Micro-Containers for Biomedical Applications 17. Antimicrobial Activities of Conducting Polymers and Their Derivatives 18. Biodegradable Electronic Devices 19. Microfluidic Devices with Integrated Conductive Polymeric Electrodes for Biosensing Applications 20. Advantages and Challenges of Biodegradable Electronic Devices 21. Conducting Polymers: An Efficient Way to Deal with Medical and Industrial Fouling 22. Antifouling Properties and Biomedical Applications of Conducting Polymers
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Conducting polymers;biodegradable polymers;biomedical;drug delivery;tissue engineering;biosensors;PPy;American Chemical Society;PCL;Sodium Dodecyl Benzenesulfonate;Drug Release;Organic Field Effect Transistors;Tissue Engineering Applications;PDMS;Mesenchymal Stem Cells;Dodecylbenzene Sulfonic Acid Sodium Salt;Electrical Stimulation;Electroactive CPs;Neural Tissue Engineering;Antifouling Properties;Benzenesulfonic Acid Sodium Salt;Conducting Hydrogels;ROP;Drug Delivery Systems;Molecular Orbital;Radical Cations;BRCA1;Conductive Fillers