nanoplasmonics

Nanoplasmonics is the study of how light interacts with free electrons in nanoscale metallic structures, giving rise to plasmons—collective oscillations of conduction electrons. At optical frequencies, metallic nanoparticles can support localized surface plasmon resonances (LSPRs), which produce strong enhancements of the electromagnetic field near the particle surface. When particles are closely spaced, plasmon modes can couple and create intense, localized “hot spots.” Surface plasmon polaritons, which propagate along metal–dielectric interfaces, enable subwavelength guiding and confinement of light.

The behavior of these excitations is described by Maxwell's equations. For particles much smaller than the

Fabrication and measurement in nanoplasmonics span multiple approaches. Colloidal synthesis and bottom‑up assembly yield nanoparticles and

Applications are centered on exploiting field enhancements and subwavelength confinement. Sensing relies on LSPR shifts from