The study presented symmetric plasmonic arrays of circular nanoholes, tilted under circularly polarized lights, for chiral sensing applications. Simulations and theoretical analyses, accounting for a chiral biolayer, demonstrated substantial improvements in circular dichroism and highlighted the potential of this structure as a chiral biolayer sensor.
Advanced Chiral Sensing Using Tilted Plasmonic Nanostructure: A Theoretical and Numerical Study
maryam mirahmadi;
2024-01-01
Abstract
The study presented symmetric plasmonic arrays of circular nanoholes, tilted under circularly polarized lights, for chiral sensing applications. Simulations and theoretical analyses, accounting for a chiral biolayer, demonstrated substantial improvements in circular dichroism and highlighted the potential of this structure as a chiral biolayer sensor.
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