Enhancing Enantioselective Absorption Using Dielectric Nanospheres

Keyphrases

• Enantioselectivity 100%
• Circularly Polarized Light 100%
• Dielectric Nanospheres 100%
• Free Space 66%
• Enantiomeric Excess 66%
• Kuhn's Dissymmetry Factor 66%
• Chemical Industry 33%
• Pharmaceutical Industry 33%
• Photoexcitation 33%
• Sub-micrometer 33%
• Resolution Method 33%
• All-optical 33%
• Circular Dichroism 33%
• Low Loss 33%
• Mie Theory 33%
• Chemical Method 33%
• Absorption Rate 33%
• Molecular Absorption 33%
• Local Enhancement 33%
• Chiral Resolution 33%
• Enantiomer Separation 33%
• High-index Dielectric Nanoparticles 33%
• Silicon Sphere 33%
• Local Optimization Algorithm 33%
• Mie Resonance 33%
• High Refractive Index Nanoparticles 33%

Chemistry

• Dielectric Material 100%
• Nanosphere 100%
• Polarized Light 100%
• Enantiomer 100%
• Dissymmetry Factor 66%
• Nanoparticle 66%
• Chemical Method 33%
• Silicon 33%
• Chirality in Separations 33%
• Photoexcitation 33%
• Refractive Index 33%
• Illumination 33%
• Chemical Industry 33%
• Pharmaceutical Industry 33%
• Circular Dichroism 33%