Nanomotor: The Future of Energy Conversion and Movement at the Molecular Scale

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.