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. 2023 Jan;35(1):e2208299.
doi: 10.1002/adma.202208299. Epub 2022 Nov 17.

Chiral Seeded Growth of Gold Nanorods Into Fourfold Twisted Nanoparticles with Plasmonic Optical Activity

Bing Ni  1 Mikhail Mychinko  2   3 Sergio Gómez-Graña  4 Jordi Morales-Vidal  5   6 Manuel Obelleiro-Liz  7 Wouter Heyvaert  2   3 David Vila-Liarte  8   9   10 Xiaolu Zhuo  8 Wiebke Albrecht  2   3 Guangchao Zheng  11 Guillermo González-Rubio  1 José M Taboada  12 Fernando Obelleiro  13 Núria López  5 Jorge Pérez-Juste  4 Isabel Pastoriza-Santos  4 Helmut Cölfen  1 Sara Bals  2   3 Luis M Liz-Marzán  4   8   9   14
Affiliations

Chiral Seeded Growth of Gold Nanorods Into Fourfold Twisted Nanoparticles with Plasmonic Optical Activity

Bing Ni et al. Adv Mater. 2023 Jan.

Erratum in

Abstract

A robust and reproducible methodology to prepare stable inorganic nanoparticles with chiral morphology may hold the key to the practical utilization of these materials. An optimized chiral growth method to prepare fourfold twisted gold nanorods is described herein, where the amino acid cysteine is used as a dissymmetry inducer. Four tilted ridges are found to develop on the surface of single-crystal nanorods upon repeated reduction of HAuCl4 , in the presence of cysteine as the chiral inducer and ascorbic acid as a reducing agent. From detailed electron microscopy analysis of the crystallographic structures, it is proposed that the dissymmetry results from the development of chiral facets in the form of protrusions (tilted ridges) on the initial nanorods, eventually leading to a twisted shape. The role of cysteine is attributed to assisting enantioselective facet evolution, which is supported by density functional theory simulations of the surface energies, modified upon adsorption of the chiral molecule. The development of R-type and S-type chiral structures (small facets, terraces, or kinks) would thus be non-equal, removing the mirror symmetry of the Au NR and in turn resulting in a markedly chiral morphology with high plasmonic optical activity.

Keywords: Au nanorods; Wulff construction; chiral seeded growth; plasmonic optical activity; twisted nanoparticles.

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