Nanosensor

In the rapidly advancing field of Nanomedicine, “Nanosensor” serves as an essential resource for professionals, students, and enthusiasts alike. This book explores cuttingedge technologies that are transforming medical diagnostics and therapies. Whether you are an undergraduate, graduate, or a seasoned professional, this comprehensive guide presents critical insights into the role of nanosensors in medicine. It emphasizes the interdisciplinary nature of the field, connecting nanotechnology with biology, chemistry, and medicine to improve human health.

Chapters Brief Overview:

1: Nanosensor: Introduction to the principles and applications of nanosensors in medical diagnostics.

2: Holographic sensor: Discusses how holographic sensors are revolutionizing biological detection methods.

3: Nanomaterials: Focuses on the role of nanomaterials in enhancing sensor efficiency and sensitivity.

4: BioFET: Explores the use of fieldeffect transistors (FETs) for biosensing applications in healthcare.

5: Green nanotechnology: Highlights environmentally friendly practices in the development of nanosensors for medical use.

6: Polymer nanocomposite: Reviews polymerbased nanocomposites and their role in improving nanosensor performance.

7: Nanoelectronics: Investigates the integration of nanoelectronics in creating highly sensitive, compact medical sensors.

8: Surfaceassisted laser desorption/ionization: Explains a crucial technique for enhancing the sensitivity of sensors for biomarker detection.

9: Carbon nanotube: Discusses the potential of carbon nanotubes in the development of highly effective medical sensors.

10: Nanobiotechnology: Covers the intersection of nanotechnology and biotechnology for the creation of novel diagnostic tools.

11: Chemical sensor array: Delves into arrays of chemical sensors and their potential for complex diagnostic testing.

12: Biosensor: Examines the fundamental principles behind biosensors, from design to implementation in healthcare.

13: Markita del Carpio Landry: An insightful overview of the work of Markita del Carpio Landry in advancing sensor technology.

14: Surface plasmon resonance: Describes the role of surface plasmon resonance in enhancing the sensitivity and specificity of nanosensors.

15: Nanomedicine: Provides an overarching view of how nanosensors are integrated into the broader scope of nanomedicine.

16: Selfassembling peptide: Discusses selfassembling peptides and their potential in nanosensor development for disease detection.

17: Thalappil Pradeep: Highlights the contributions of Thalappil Pradeep in the development of advanced sensor technologies.

18: Chemiresistor: Focuses on the use of chemiresistors in detecting chemical changes for medical diagnostics.

19: Biointerface: Covers the development of biointerfaces for improving the interaction between biological samples and nanosensors.

20: Nanochemistry: Explores the chemical principles that guide the synthesis and optimization of nanosensors.

21: Nanotechnology: Concludes with an overview of nanotechnology's future prospects in advancing medical diagnostics.

This book is an invaluable resource for anyone interested in understanding the future of healthcare through the lens of nanotechnology. By investing in this knowledge, readers can unlock the potential of nanosensors to revolutionize medical practices and improve patient outcomes. With a clear, accessible approach, “Nanosensor” ensures that readers at any stage of their career can appreciate its transformative impact.