Enantioselective amplification on circularly polarized laser-induced chiral nucleation from a NaClO₃solution containing Ag nanoparticles

Abstract: We demonstrate that a statistically-significant chiral bias in NaClO 3 chiral crystallization can be provoked by inducing nucleation via the optical trapping of Ag nano-aggregates using a continuous wave visible circularly polarized laser (λ = 532 nm). The laser was focused at the interface between air and an unsaturated NaClO 3 aqueous solution containing Ag nanoparticles. The "dominant" enantiomorph was switchable by changing the handedness of the incident circularly polarized laser, indicating that the chir… Show more

“…When one-handed circularly polarized light, which has been emitted from various sources (Bonner 1991;Bailey et al 1998), was used to irradiate ice grains with nanoparticles during α-CO formation, the resulting crystal enantiomeric excess might be several tens of per cent. This suggestion could be supported by laboratory experiments on NaClO 3 chiral crystallization (Niinomi et al 2016;Cheng et al 2020) and theoretical studies (Tang & Cohen 2010;Liu et al 2015;Ho et al 2016). The peak attributed to circular dichroism of the chiral molecule, which generally lies in UV region, could be transferred to the visible wavelength region in these cases (Zhang & Govorov 2013;Wang et al 2014;Vestler, Ben-Moshe & Markovich 2019).…”

Formation of chiral CO polyhedral crystals on icy interstellar grains

“…When one-handed circularly polarized light, which has been emitted from various sources (Bonner 1991;Bailey et al 1998), was used to irradiate ice grains with nanoparticles during α-CO formation, the resulting crystal enantiomeric excess might be several tens of per cent. This suggestion could be supported by laboratory experiments on NaClO 3 chiral crystallization (Niinomi et al 2016;Cheng et al 2020) and theoretical studies (Tang & Cohen 2010;Liu et al 2015;Ho et al 2016). The peak attributed to circular dichroism of the chiral molecule, which generally lies in UV region, could be transferred to the visible wavelength region in these cases (Zhang & Govorov 2013;Wang et al 2014;Vestler, Ben-Moshe & Markovich 2019).…”

Formation of chiral CO polyhedral crystals on icy interstellar grains

“…Thus, LIPS is likely to be related to a string of recent laserinduced nucleation experiments claiming to use optical trapping of clusters, 15,17,19,61,62,[70][71][72][73][74] although these experiments could only be carried out at air-solution interfaces, implying that evaporation, Marangoni effects, and thermophoresis may play important roles as well. A repeat of these experiments in the bulk would be worthwhile, bearing in mind the possibility of a hidden liquidliquid critical point enhancing concentration fluctuations.…”

Using optical tweezing to control phase separation and nucleation near a liquid–liquid critical point

“…It was initially demonstrated that circularly polarized light could induce a bias during the chiral crystallization of NaClO 3 . 269 A few years later, Chen et al used non-chiral gold triangle trimers in a saturated solution of sodium chlorate illuminated with RCP or LCP light to obtain a crystalline enantiomeric excess of more than 50%. 270 In a follow-up paper, the same group explained this result by modeling the plasmonic near-field during illumination and showing that the large enantiomeric excess previously observed arose from a difference in the frequency of attachment of chiral crystalline clusters to crystal nuclei, or in the local concentration of NaClO 3 due to chirally biased diffusion, rather than from enantioselective optical trapping.…”

Chiral plasmonic nanostructures: recent advances in their synthesis and applications