Nanoscale Plasmonic Motor

Explore the cuttingedge intersection of nanoscale technology and plasmonics with “Nanoscale Plasmonic Motor.” This book delves into how nanomotors operate within the realm of DNA Origami, showcasing the futuristic integration of molecularlevel engineering with advanced photonics. Written for professionals, researchers, students, and enthusiasts, this book is a musthave resource for anyone seeking to understand the current state and future potential of nanorobotics and plasmonic technology

Chapters Brief Overview:

Nanoscale plasmonic motor: Introduces the concept of plasmonic motors at the nanoscale, focusing on how they function within DNA origami structures

Localized surface plasmon: Explains the behavior of surface plasmon resonances and their role in enhancing nanomotor efficiency

Nanorobotics: Explores the role of nanorobotics in modern technology, emphasizing their connection to plasmonic motors in DNA origami

Plasmon: Discusses the physics of plasmons, which are integral to controlling nanoscale movements in engineered devices

Nanolaser: Highlights the use of plasmonic materials to create nanolasers, which are key to controlling light at the nanoscale

Mark Stockman: Analyzes Stockman’s contributions to plasmonics, providing insights into the development of efficient plasmonic nanomotors

Nanomotor: Focuses on the design and operation of nanomotors within the framework of DNA origami, examining their practical applications

Donglei Fan: Reviews Donglei Fan’s research on plasmonic devices, which advances the understanding of nanomotor control mechanisms

Graphene plasmonics: Investigates the integration of graphene with plasmonic technology, offering new avenues for faster and more efficient nanomotors

Plasmonics: Provides a comprehensive overview of plasmonics and its vital role in advancing nanotechnology, including its application in DNA origami

Plasmonic nanolithography: Describes the cuttingedge technique of plasmonic nanolithography for fabricating highresolution structures used in nanomotors

Giulia Tagliabue: Highlights Tagliabue's work on plasmonic materials, which is fundamental in pushing the limits of DNA origamibased nanomotors

Plasmonic solar cell: Discusses how plasmonics can enhance solar cell efficiency, a technology that could be integrated with nanomotors

Polariton: Examines polaritons in nanophotonics, showing their connection to plasmonic effects and their relevance to DNA origami

Plasmonic metamaterial: Investigates the development of plasmonic metamaterials, which are essential for creating advanced nanomotor components

Surface plasmon: Focuses on the interaction of surface plasmon waves with nanoscale devices and their practical uses in nanomotor design

Spaser: Introduces the concept of spasers, which serve as light sources in nanodevices, offering potential for nanoscale actuation

Nanoruler: Details the precision of plasmonic devices as nanorulers, crucial for measuring and positioning components in DNA origami

Plasmonic lens: Discusses the role of plasmonic lenses in focusing light at the nanoscale, essential for the manipulation of nanomotors

Carbon nanotube nanomotor: Explores the integration of carbon nanotubes in plasmonic motors, offering stronger and more durable nanomotors

Nanophotonics: Covers the role of nanophotonics in manipulating light at the nanoscale, driving the evolution of plasmonic nanomotors

By reading this book, you will not only gain an indepth understanding of plasmonic motors at the nanoscale but also their applications in revolutionary fields like nanomedicine, robotics, and material science. Whether you're a student or a professional, the insights shared in this book will enhance your grasp of DNA origami and its transformative potential.