Nanoscale Plasmonic Motor: Harnessing Light for Precision Motion at the Atomic Scale

Nanoscale plasmonic motor

The opening chapter delves into the fundamentals of nanoscale plasmonic motors, focusing on the interaction between light and matter at microscopic scales.

Nanolaser-An exploration of how nanolasers operate and their implications for plasmonic devices in advanced applications.

Plasmonic solar cell-This chapter covers the advancements in plasmonic solar cells, emphasizing their potential to significantly enhance energy efficiency.

Plasmonic lens-The chapter introduces the concept of plasmonic lenses and how they enable precise focusing of light at the nanoscale.

Plasmonic nanolithography-A dive into plasmonic nanolithography techniques and their transformative impact on nanofabrication processes.

Nanophotonics-This chapter explains the role of nanophotonics in manipulating light for the creation of more efficient nanomotors and related devices.

Mark Stockman-This chapter highlights the work of Mark Stockman in the field of plasmonics and his contributions to understanding lightmatter interactions.

Donglei Fan-A look into Donglei Fan’s research on nanomotor applications, exploring his findings on energy conversion and efficiency in plasmonic systems.

Giulia Tagliabue-Focusing on Giulia Tagliabue’s groundbreaking work in graphenebased plasmonic devices, this chapter offers critical insights into future developments.

Carbon nanotube nanomotor-The chapter provides a detailed analysis of the role of carbon nanotubes in powering nanomotors with enhanced efficiency and versatility.

Nanorobotics-An essential read for anyone interested in the future of robotics, this chapter discusses the integration of plasmonics with nanorobotics.

Plasmon-A deep dive into the concept of plasmonic excitation, its importance in energy harvesting, and its applications in nanomotor design.

Graphene plasmonics-An introduction to the exciting field of graphene plasmonics, exploring how this material can revolutionize the design of nanomotors.

Nanomotor-This chapter integrates all the principles discussed earlier to outline how nanoscale plasmonic motors can be developed for realworld applications.

Plasmonics-A broad overview of plasmonics, exploring its principles and how it is applied across various fields, especially in enhancing nanomotor technology.

Surface plasmon-This chapter covers surface plasmon resonance and its applications in controlling light at the nanoscale for enhanced efficiency.

Localized surface plasmon-An exploration of localized surface plasmon resonances, critical for miniaturizing devices and increasing the sensitivity of nanosensors.

Polariton-This chapter introduces polaritons and their ability to couple with light to produce ultraefficient plasmonic systems.

Plasmonic metamaterial-A look into plasmonic metamaterials, which offer the potential to dramatically improve the design and functionality of nanomotors.

Nanoruler-The chapter explains the concept of a nanoruler, its application in precise measurements, and its role in advancing nanomotor technology.

Spaser-The final chapter covers the spaser—an optical source of coherent plasmons—and its role in powering the next generation of nanomotors.