Nanobiotechnology: Advances in Molecular Assembly and Applications in Medical Engineering

Chapters Brief Overview:

1: Nanobiotechnology: An introduction to the intersection of biology and nanotechnology, exploring key advances shaping the field.

2: Nanomedicine: This chapter covers the role of nanotechnology in revolutionizing medical diagnostics and treatments.

3: Nanoparticle–biomolecule conjugate: Focuses on the synergy between nanoparticles and biomolecules for targeted drug delivery and other biomedical applications.

4: Nanorobotics: Explores the use of nanoscale robots to perform tasks at the molecular level, transforming healthcare and technology.

5: Intracellular delivery: Highlights the breakthroughs in delivering therapeutic agents within cells using nanotechnology.

6: Nanochemistry: A look at the chemical principles driving the development of nanomaterials for biological applications.

7: DNA nanotechnology: Discusses the creation and manipulation of DNA structures, a cornerstone of DNA Origami technology.

8: Nanotechnology: Provides an overview of nanotechnology, covering its fundamentals and applications in multiple fields.

9: Molecular biophysics: An exploration of the physical principles that govern molecular structures and their behavior in biological systems.

10: Molecular nanotechnology: Investigates the potential of designing and constructing molecular machines for a range of applications.

11: Biological computing: Explores the frontier of using biological systems to perform computations, merging biotechnology and computing.

12: Nanosensor: Focuses on the development of nanosensors for detecting biomolecules and environmental changes.

13: Drug delivery: A deep dive into the innovative ways nanotechnology is optimizing drug delivery systems.

14: Magnetic nanoparticles: Covers the uses of magnetic nanoparticles in medical imaging, targeted drug delivery, and cancer treatment.

15: Nanotoxicology: Examines the potential risks and safety concerns associated with the widespread use of nanomaterials.

16: Bacillus virus phi29: Discusses the role of the phi29 virus in nanotechnology, especially in DNA packaging and replication.

17: Molecular engineering: Explores the techniques and tools for engineering molecular structures with precise functionality.

18: DNA origami: The core of the book, exploring the principles and applications of folding DNA into nanoscale structures.

19: Gold nanoparticles in chemotherapy: Examines the use of gold nanoparticles to improve the efficacy of cancer treatments.

20: Virus nanotechnology: Looks at the use of viruses as templates and tools for creating nanostructures.

21: Applications of nanotechnology: A comprehensive review of the current and future applications of nanotechnology in various industries.

Nanobiotechnology is more than just a book—it's a gateway to understanding the intersection of biology and nanotechnology. Whether you’re a student, a professional, or a hobbyist, this book offers invaluable insights into the future of science. With an emphasis on DNA Origami, it equips you with the knowledge needed to navigate and innovate in a rapidly evolving field.