Semiconducting Silicon Nanowires for Biomedical Applications
portes grátis
Semiconducting Silicon Nanowires for Biomedical Applications
Coffer, Jeffery L.
Elsevier Science Publishing Co Inc
09/2021
440
Mole
Inglês
9780128213513
15 a 20 dias
1000
Descrição não disponível.
Part I: Introduction to silicon nanowires for biomedical applications: Synthesis and fundamental properties 1. Overview of semiconducting silicon nanowires for biomedical applications 2. Growth and characterization of semiconducting silicon nanowires for biomedical applications 3. Surface modification of semiconducting silicon nanowires for biosensing applications 4. Biocompatibility of semiconducting silicon nanowires
Part II: Silicon nanowires for delivery and tissue engineering applications 5. Functional semiconducting silicon nanowires for cellular binding and internalization 6. Functional semiconducting silicon nanowires and their composites as tissue scaffolds 7. Mediated differentiation of stem cells by engineered semiconducting silicon nanowires 8. Nanoneedles devices for biomedicine 9. Therapeutic platforms based on silicon nanotubes 10. Silicon nanowires as spatially-defined therapeutics
Part III: Silicon nanowires for detection and sensing 11. Semiconducting silicon nanowire array fabrication for high throughput screening in the biosciences 12. Nanostructured silicon for biological modulation 13. CMOS-compatible silicon nanowire field-effect transistors: Where nanotechnology pushes the limits in biosensing 14. Silicon nanowire composites for biosensing and therapy
Part IV: Future opportunities and challenges 15. The competition: non-silicon nanowire/nanotube strategies in nanomedicine 16. Commercialization of silicon nanowire-based biotechnologies
Part II: Silicon nanowires for delivery and tissue engineering applications 5. Functional semiconducting silicon nanowires for cellular binding and internalization 6. Functional semiconducting silicon nanowires and their composites as tissue scaffolds 7. Mediated differentiation of stem cells by engineered semiconducting silicon nanowires 8. Nanoneedles devices for biomedicine 9. Therapeutic platforms based on silicon nanotubes 10. Silicon nanowires as spatially-defined therapeutics
Part III: Silicon nanowires for detection and sensing 11. Semiconducting silicon nanowire array fabrication for high throughput screening in the biosciences 12. Nanostructured silicon for biological modulation 13. CMOS-compatible silicon nanowire field-effect transistors: Where nanotechnology pushes the limits in biosensing 14. Silicon nanowire composites for biosensing and therapy
Part IV: Future opportunities and challenges 15. The competition: non-silicon nanowire/nanotube strategies in nanomedicine 16. Commercialization of silicon nanowire-based biotechnologies
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Biosensors; Biosensing; Nanooptics; Nanoelectronics; Tissue Engineering; Gene Therapy; Drug Delivery; Tissue Scaffolds; Biocompatibility
Part I: Introduction to silicon nanowires for biomedical applications: Synthesis and fundamental properties 1. Overview of semiconducting silicon nanowires for biomedical applications 2. Growth and characterization of semiconducting silicon nanowires for biomedical applications 3. Surface modification of semiconducting silicon nanowires for biosensing applications 4. Biocompatibility of semiconducting silicon nanowires
Part II: Silicon nanowires for delivery and tissue engineering applications 5. Functional semiconducting silicon nanowires for cellular binding and internalization 6. Functional semiconducting silicon nanowires and their composites as tissue scaffolds 7. Mediated differentiation of stem cells by engineered semiconducting silicon nanowires 8. Nanoneedles devices for biomedicine 9. Therapeutic platforms based on silicon nanotubes 10. Silicon nanowires as spatially-defined therapeutics
Part III: Silicon nanowires for detection and sensing 11. Semiconducting silicon nanowire array fabrication for high throughput screening in the biosciences 12. Nanostructured silicon for biological modulation 13. CMOS-compatible silicon nanowire field-effect transistors: Where nanotechnology pushes the limits in biosensing 14. Silicon nanowire composites for biosensing and therapy
Part IV: Future opportunities and challenges 15. The competition: non-silicon nanowire/nanotube strategies in nanomedicine 16. Commercialization of silicon nanowire-based biotechnologies
Part II: Silicon nanowires for delivery and tissue engineering applications 5. Functional semiconducting silicon nanowires for cellular binding and internalization 6. Functional semiconducting silicon nanowires and their composites as tissue scaffolds 7. Mediated differentiation of stem cells by engineered semiconducting silicon nanowires 8. Nanoneedles devices for biomedicine 9. Therapeutic platforms based on silicon nanotubes 10. Silicon nanowires as spatially-defined therapeutics
Part III: Silicon nanowires for detection and sensing 11. Semiconducting silicon nanowire array fabrication for high throughput screening in the biosciences 12. Nanostructured silicon for biological modulation 13. CMOS-compatible silicon nanowire field-effect transistors: Where nanotechnology pushes the limits in biosensing 14. Silicon nanowire composites for biosensing and therapy
Part IV: Future opportunities and challenges 15. The competition: non-silicon nanowire/nanotube strategies in nanomedicine 16. Commercialization of silicon nanowire-based biotechnologies
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
