Molecular Nanotechnology - Exploring Revolutionary Advances in Nanoengineering for Future Technologies

Fouad Sabry

Maison d'édition: One Billion Knowledgeable

Synopsis

Molecular nanotechnology-This chapter introduces the core concepts of molecular nanotechnology, its potential, and its role in shaping future innovations
 
Selfreplicating machine-Explores the possibility of machines that can replicate themselves, an essential concept for nanotechnology's scalability and efficiency
 
K. Eric Drexler-Highlights Drexler’s pioneering work in nanotechnology, which laid the foundation for much of the current research and advancements in the field
 
Engines of Creation-An indepth look at Drexler’s influential book, which discusses the theoretical underpinnings and future possibilities of molecular manufacturing
 
Robert Freitas-Discusses the contributions of Robert Freitas to molecular nanotechnology, particularly in the field of nanomedicine and its societal impact
 
Richard Smalley-Examines Richard Smalley’s key discoveries, including his work on carbon nanotubes, which have vast implications for molecular nanotechnology
 
Gray goo-Focuses on the potential dangers of selfreplicating nanomachines, an essential ethical and safety consideration in the field of nanotechnology
 
Nanorobotics-Investigates the creation and use of nanobots, exploring their potential in fields like medicine, environmental monitoring, and manufacturing
 
Nanomedicine-Describes the revolutionary potential of nanotechnology in medicine, including drug delivery systems, diagnostics, and treatment innovations
 
Molecular assembler-Explains the concept of molecular assemblers—machines capable of constructing materials at the molecular level, a key technology for nanotechnology
 
There’s Plenty of Room at the Bottom-Discusses Richard Feynman’s groundbreaking 1959 lecture that envisioned a future of miniaturized machines and systems, setting the stage for molecular nanotechnology
 
Feynman Prize in Nanotechnology-Details the prestigious Feynman Prize, awarded for outstanding contributions to the field of nanotechnology, and its impact on research
 
Selfreplication-A further exploration of the concept of selfreplicating systems and their potential applications, both beneficial and hazardous
 
Drexler–Smalley debate on molecular nanotechnology-Examines the intellectual debate between two leading figures in nanotechnology, offering insights into the field’s challenges
 
History of nanotechnology-Traces the historical development of nanotechnology from its theoretical origins to its current applications, highlighting key milestones
 
Ralph Merkle-Highlights the contributions of Ralph Merkle, particularly in the area of molecular machines and their potential in practical applications
 
Wet nanotechnology-Focuses on the role of wet nanotechnology, which involves molecularscale machines working in environments similar to biological systems
 
Productive nanosystems-Explores the development of nanosystems that can perform complex tasks, including manufacturing and selfrepair
 
Ecophagy-Discusses the concept of nanotechnology being used for environmental remediation, particularly in the context of “ecophagy” or selfreplicating systems designed to remove waste
 
Nanotechnology-Provides a broader overview of the current state of nanotechnology, its applications, and its promise in revolutionizing industries
 
Mechanosynthesis-Focuses on the process of mechanosynthesis, a critical technology for assembling complex molecular structures with precision

Disponible depuis: 26/03/2025.

Longueur d'impression: 219 pages.

Science et Technologie

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