Localized Surface Plasmon: Harnessing Optical Resonances for Nanoscale Energy Transfer and Sensing

Chapters Brief Overview:

1: Localized surface plasmon – Explore the principles governing localized surface plasmon resonances and their role in nanooptics.

2: Surface plasmon – Understand surface plasmons and their ability to confine light at metaldielectric interfaces.

3: Graphene plasmonics – Investigate graphenebased plasmonics for enhanced optical and electronic applications.

4: Plasmonic catalysis – Discover how plasmondriven reactions accelerate chemical transformations at the nanoscale.

5: Plasmonic solar cell – Learn how plasmonics improve solar cell efficiency through lighttrapping mechanisms.

6: Surface plasmon resonance microscopy – Delve into highresolution imaging techniques using plasmonenhanced sensitivity.

7: Plasmonic metamaterial – Study artificially structured materials with extraordinary optical properties.

8: Multiple layered plasmonics – Examine multilayered plasmonic structures for advanced photonic applications.

9: Plasmonic nanolithography – Understand the role of plasmonics in highresolution nanofabrication.

10: Vibrational analysis with scanning probe microscopy – Learn how plasmonics enhance molecular detection.

11: Surface plasmon polariton – Explore wavelike plasmons that propagate along metal surfaces.

12: Nanoruler – Discover nanoscale measurement tools based on plasmonic properties.

13: Plasmon coupling – Understand how nearby plasmons interact to create tunable optical effects.

14: Plasmon – Gain insights into fundamental plasmonic concepts shaping modern nanophotonics.

15: Plasmonics – Investigate how plasmonics bridges physics, chemistry, and engineering for realworld solutions.

16: Colloidal gold – Explore the historical and modern uses of gold nanoparticles in plasmonic applications.

17: Surface plasmon resonance – Learn how resonance phenomena enable advanced biosensing.

18: Plasmonic nanoparticles – Examine the role of engineered nanoparticles in cuttingedge plasmonics.

19: Prashant K. Jain – Highlight the contributions of a leading researcher in plasmonic nanoscience.

20: Surfaceenhanced Raman spectroscopy – Discover how plasmonics amplify molecular vibrational signals.

21: Nanolaser – Understand how plasmonics enable ultracompact laser technologies.

This book provides an invaluable resource, distilling complex plasmonic phenomena into accessible insights. With its structured approach and expertlevel discussion, Localized Surface Plasmon is your gateway to mastering nanoscale lightmatter interactions and unlocking the future of plasmonic innovation.