Adv Mater. 2020 Oct;32(41):e1801790. doi: 10.1002/adma.201801790. Epub 2018 Sep 09.
Plasmonic Chirality and Circular Dichroism in Bioassembled and Nonbiological Systems: Theoretical Background and Recent Progress.
Advanced materials (Deerfield Beach, Fla.)
Xiang-Tian Kong, Lucas V Besteiro, Zhiming Wang, Alexander O Govorov
Affiliations
Affiliations
- Institute of Fundamental and Frontier Sciences, University of Electronic Science and Technology of China, Chengdu, 610054, China.
- Department of Physics and Astronomy, Ohio University, Athens, OH, 45701, USA.
- Centre Énergie Matériaux et Télécommunications, Institut National de la Recherche Scientifique, Varennes, QC J3X 1S2, Canada.
PMID: 30260543
DOI: 10.1002/adma.201801790
Abstract
Nature is chiral, thus chirality is a key concept required to understand a multitude of systems in physics, chemistry, and biology. The field of optics offers valuable tools to probe the chirality of nanosystems, including the measurement of circular dichroism, the differential interaction strength between matter and circularly polarized light with opposite helicity. Simultaneously, the use of plasmonic systems with giant light-interaction cross-sections opens new paths to investigate and manipulate systems on the nanoscale. Consequently, the interest in chiral plasmonic and hybrid systems has continually grown in recent years, due to their potential applications in biosensing, polarization-encoded optical communication, polarization-selective chemical reactions, and materials with polarization-dependent light-matter interaction. Experimentally, chiral properties of nanostructures can be either created artificially using modern fabrication techniques involving inorganic materials, or borrowed from nature using bioassembly or biomolecular templating. Herein, the recent progress in the field of plasmonic chirality is summarized, with a focus on both the theoretical background and the experimental advances in the study of chirality in various systems, including molecular-plasmonic assemblies, chiral plasmonic nanostructures, chiral assemblies of interacting plasmonic nanoparticles, and chiral metal metasurfaces and metamaterials. The growth prospects of this field are also discussed.
© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
Keywords: bio-plasmonics; chirality; circular dichroism; metal nanoparticles; metamaterials; plasmonics
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