[PDF][PDF] Ultraviolet plasmonic chirality from colloidal aluminum nanoparticles exhibiting charge-selective protein detection
KM McPeak, CD van Engers, S Bianchi… - Advanced …, 2015 - research-collection.ethz.ch
Advanced Materials, 2015•research-collection.ethz.ch
… Chiral aluminum nanoparticles, dispersed in water, were prepared which provide strong
ultraviolet plasmonic circular dichroism, high-energy superchiral near-fields, and chargeselective
protein detection. … Plasmonic metal nanoparticles exhibit large electromagnetic-field
enhancements that are … Chiral aluminum nanoparticles, dispersed in water, were
prepared which provide strong ultraviolet plasmonic circular dichroism, high-energy
superchiral near-fields, and chargeselective protein detection. …
ultraviolet plasmonic circular dichroism, high-energy superchiral near-fields, and chargeselective
protein detection. … Plasmonic metal nanoparticles exhibit large electromagnetic-field
enhancements that are … Chiral aluminum nanoparticles, dispersed in water, were
prepared which provide strong ultraviolet plasmonic circular dichroism, high-energy
superchiral near-fields, and chargeselective protein detection. …
Abstract
Chiral aluminum nanoparticles, dispersed in water, were prepared which provide strong ultraviolet plasmonic circular dichroism, high-energy superchiral near-fields, and chargeselective protein detection.
research-collection.ethz.ch
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