Optoelectronic investigation of plasmon-enhanced silicon thin-film solar cells: effect of nanoparticles geometry, periodic density, embedding position, and dielectric environment on device performance
Key Points
Device performance improves with optimized nanoparticle geometry and density, enhancing efficiency.
Key evidence showed a 20% increase in efficiency when nanoparticles were strategically embedded.
Analysis of the dielectric environment revealed critical interactions enhancing light absorption in cells.
Findings support the development of advanced solar technologies for better renewable energy sources.
Optoelectronic investigation of plasmon-enhanced silicon thin-film solar cells: effect of nanoparticles geometry, periodic density, embedding position, and dielectric environment on device performance | Synapse