Semiconducting Silicon Nanowires for Biomedical Applications

<p>Part I: Introduction to silicon nanowires for biomedical applications: Synthesis and fundamental properties<br>1. Overview of semiconducting silicon nanowires for biomedical applications<br>2. Growth and characterization of semiconducting silicon nanowires for biomedical applications<br>3. Surface modification of semiconducting silicon nanowires for biosensing applications<br>4. Biocompatibility of semiconducting silicon nanowires</p> <p>Part II: Silicon nanowires for delivery and tissue engineering applications<br>5. Functional semiconducting silicon nanowires for cellular binding and internalization<br>6. Functional semiconducting silicon nanowires and their composites as tissue scaffolds<br>7. Mediated differentiation of stem cells by engineered semiconducting silicon nanowires<br>8. Nanoneedles devices for biomedicine<br>9. Therapeutic platforms based on silicon nanotubes<br>10. Silicon nanowires as spatially-defined therapeutics</p> <p>Part III: Silicon nanowires for detection and sensing<br>11. Semiconducting silicon nanowire array fabrication for high throughput screening in the biosciences<br>12. Nanostructured silicon for biological modulation<br>13. CMOS-compatible silicon nanowire field-effect transistors: Where nanotechnology pushes the limits in biosensing<br>14. Silicon nanowire composites for biosensing and therapy</p> <p>Part IV: Future opportunities and challenges<br>15. The competition: non-silicon nanowire/nanotube strategies in nanomedicine<br>16. Commercialization of silicon nanowire-based biotechnologies</p>