Nanomotor

In the rapidly advancing world of Molecular Nanotechnology, the concept of “Nanomotor” is at the forefront of groundbreaking innovations. This book offers an insightful exploration of the principles, applications, and cuttingedge developments in nanomotor technologies. Whether you're a professional in the field, an undergraduate or graduate student, or an enthusiast fascinated by the intersection of science and engineering, this book will deepen your understanding of how molecular motors are revolutionizing industries and our everyday lives

Chapters Brief Overview:

Nanomotor: This chapter introduces the concept of nanomotors, their role in nanotechnology, and how they mimic natural motor functions on a molecular scale

Molecular motor: Dive into the mechanics of molecular motors, understanding their structure and how they power nanodevices

Nanoscale plasmonic motor: Explore the intriguing application of plasmonics in nanomotors and their efficiency in energy transfer at the nanoscale

Biohybrid microswimmer: Learn about the integration of biological components with synthetic systems to create biohybrid microswimmers that navigate microscopic environments

Micropump: This chapter focuses on micropumps powered by nanomotors, highlighting their potential in labonachip devices and drug delivery systems

Clustering of selfpropelled particles: Discover how selfpropelled particles cluster together and their significance in the creation of advanced nanodevices

Tipenhanced Raman spectroscopy: Gain insight into the use of tipenhanced Raman spectroscopy (TERS) for characterizing molecular motors and their interaction with light

Microbotics: Delve into the development of microbots powered by molecular motors, with applications ranging from medical procedures to environmental monitoring

Synthetic molecular motor: Understand how synthetic molecular motors are designed and their increasing role in nanotechnologybased applications

Collective motion: Explore the phenomenon of collective motion in systems of nanomotors, and how their interactions lead to coordinated behaviors

Carbon nanothread: Learn about carbon nanothreads and their potential to create superstrong and lightweight materials for use in nanomotor construction

Nanorobotics: This chapter discusses the field of nanorobotics and its promising future, fueled by the evolution of nanomotor technology

Microswimmer: Examine how microswimmers powered by nanomotors are designed to navigate liquids, enabling their use in biomedical and environmental applications

Electroosmotic pump: Understand the workings of electroosmotic pumps in microfluidic systems, powered by molecular motors to control fluid flow

Micromotor: A closer look at the diverse applications of micromotors in precision medicine, diagnostics, and the future of automated systems

Selfpropelled particles: Learn about the behavior of selfpropelled particles and their potential applications in drug delivery and material science

Artificial enzyme: This chapter covers the creation of artificial enzymes powered by molecular motors, expanding the capabilities of synthetic biology

Carbon nanotube: Discover the role of carbon nanotubes in enhancing the performance of nanomotors and their applications in electronics and materials science

James Tour: Explore the contributions of James Tour to the field of molecular motors and nanotechnology, highlighting his groundbreaking research

Molecular machine: Understand the working principles of molecular machines and how they are becoming the foundation for the next wave of technological innovation

Selfassembling peptide: Learn about selfassembling peptides and their integration with nanomotor technology to create selfreplicating nanodevices.