Ben J. Olohan scite author profile

ombinatorial nanochemistry allows tens to millions of mixtures to be produced in a single process 1,2 , generating large chemical libraries [3][4][5][6][7] and making implementation of artificial intelligence algorithms possible. Following the rapid development of chiral nanostructures [8][9][10][11][12][13] , such synthetic and analytical platforms can be applied to the high-throughput assessment of enzyme mimics, contrast agents, antibiotic agents, drug delivery vehicles, as well as other applications of these bioinspired materials. These analyses should be carried out in microplates of 1,536, 3,456 or 9,600 wells, with sample volumes as small as, and smaller than, 1 µl (ref.

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Optical Activity in Third‐Harmonic Rayleigh Scattering: A New Route for Measuring Chirality

Ohnoutek

Jeong

Jones

et al. 2021

Laser & Photonics Reviews

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In 3D isotropic liquids, optical third‐harmonic generation is forbidden, with circularly polarized light (CPL). Yet the associated nonlinear susceptibility directly influences the optical properties at the fundamental frequency by intensity dependence (Kerr effect). Here, the hidden third‐harmonic optical properties upon CPL illumination are revealed by demonstrating a new effect, in hyper‐Rayleigh scattering. This effect is succinctly enunciated: the intensity of light scattered at the third‐harmonic frequency of the CPL incident light depends on the chirality of the scatterers. It is referred to as third‐harmonic (hyper) Rayleigh scattering optical activity (THRS OA) and was observed from Ag nanohelices randomly dispersed in water. The first analytical theory model for the new effect in nanohelices is also provided, highlighting the role of localized transition dipoles along the helical length. THRS OA is remarkably user‐friendly. It offers access to intricate optical properties (hyperpolarizabilities) that have so far been more easily accessible by computation and that are essential for the understanding of light−matter interactions. The new effect could find applications in hyper‐sensitive characterization of the chirality in molecules and in nanostructures; this chirality plays a fundamental role in the function of bio/nano‐machinery, with promising applications in next generation technologies.

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Second harmonic Rayleigh scattering optical activity of single Ag nanohelices in a liquid

et al. 2022

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Optical Activity in Third‐Harmonic Rayleigh Scattering: A New Route for Measuring Chirality (Laser Photonics Rev. 15(11)/2021)

Ohnoutek¹,

Jeong²,

Jones³

et al. 2021

Laser & Photonics Reviews

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Dataset for "Optical activity in third-harmonic Rayleigh scattering: a new route for measuring chirality"

Ohnoutek¹,

Jones²,

Olohan³

et al. 2021

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Ben J. Olohan

Third-harmonic Mie scattering from semiconductor nanohelices

Optical Activity in Third‐Harmonic Rayleigh Scattering: A New Route for Measuring Chirality

Second harmonic Rayleigh scattering optical activity of single Ag nanohelices in a liquid

Optical Activity in Third‐Harmonic Rayleigh Scattering: A New Route for Measuring Chirality (Laser Photonics Rev. 15(11)/2021)

Dataset for "Optical activity in third-harmonic Rayleigh scattering: a new route for measuring chirality"

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