Nanorobotics

“Nanorobotics” is a pioneering work in the field of Robotics Science, offering an indepth exploration of the cuttingedge realm where robotics and nanotechnology converge. This book serves as an essential resource for professionals, students, and enthusiasts eager to understand how microscopic robots can revolutionize fields such as medicine, biotechnology, and manufacturing. From the fundamentals of nanorobotics to its fascinating applications in the real world, this book provides a comprehensive foundation for anyone passionate about this emerging field. Whether you are an undergraduate or graduate student, a researcher, or just curious about the future of robotics, “Nanorobotics” is your guide to the frontier of scientific innovation.

Chapters Brief Overview:

Nanorobotics: An introduction to the world of nanorobots and their potential to change industries and medicine.

Molecular Nanotechnology: Explores the principles of building machines and robots at the molecular level, key for nanorobotics.

Nanotechnology: A deeper dive into how nanotechnology is applied in creating nanoscale devices and robots.

Nanomedicine: Examines the promising use of nanorobots in healthcare, targeting precision treatment and surgery.

Nanomotor: Focuses on the development of miniature motors that power nanorobots, driving their movement and function.

Nanobiotechnology: Discusses how nanorobotics integrates with biotechnology, paving the way for bioengineering breakthroughs.

Nanotechnology in Fiction: Looks at how nanotechnology is portrayed in science fiction, influencing realworld research and imagination.

DNA Origami: Describes the creation of nanoscale structures from DNA molecules, essential for nanorobotics.

Molecular Biophysics: Explores the physical principles that govern the behavior of molecules and their interaction in nanorobots.

Nanoelectronics: Covers the role of nanoscale electronics in the functioning and development of advanced robotic systems.

DNA Nanotechnology: Discusses the applications of DNA in constructing molecular machines and sensors for nanorobots.

Nanoscale Plasmonic Motor: Explains the development of plasmonic motors, crucial for powering nanoscale robots with light.

Applications of Nanotechnology: Explores realworld applications of nanotechnology in various fields such as energy, environment, and medicine.

Robotic Sperm: Examines the cuttingedge development of robotic sperm, used in medical research and assisted reproduction.

DNA Walker: Describes how DNA walkers can be employed in controlled movement at the molecular level within nanorobots.

Ambarish Ghosh: A look at the pioneering contributions of Ambarish Ghosh to the field of nanorobotics and bioengineering.

Biohybrid Microswimmer: Focuses on biohybrids—combining biological and synthetic elements to create efficient microswimmers.

Microswimmer: Explores the development and potential applications of tiny swimming robots in medicine and science.

Debayan Dasgupta: Highlights the innovative work of Debayan Dasgupta in the field of nanorobotics and molecular machines.

K. Eric Drexler: Discusses the visionary ideas of K. Eric Drexler, the father of molecular nanotechnology and nanorobotics.

Robert Freitas: Explores Robert Freitas' groundbreaking research in nanomedicine and the potential of nanorobots in healthcare.

With each chapter, “Nanorobotics” not only explains the theoretical aspects of the field but also presents the latest practical applications, making it an invaluable resource for anyone interested in the future of robotics. The book's thorough coverage ensures that readers will leave with a deep understanding of the intersection between nanotechnology and robotics, equipping them with the knowledge needed to advance their work or studies in this exciting domain.