Single Crystal and Pentatwinned Gold Nanorods Result in Chiral Nanocrystals with Reverse Handedness

Author:

Van Gordon Kyle12,Ni Bing34,Girod Robin5,Mychinko Mikhail5,Bevilacqua Francisco12,Bals Sara5ORCID,Liz‐Marzán Luis M.1678ORCID

Affiliation:

1. CIC biomaGUNE Basque Research and Technology Alliance (BRTA) 20014 Donostia-San Sebastián Spain

2. Department of Applied Chemistry University of the Basque Country (UPV-EHU) 20018 Donostia-San Sebastián Spain

3. Physical Chemistry University of Konstanz 78457 Konstanz Germany

4. Present address: Department of Chemical Engineering University of Michigan MI 48109-2102 Ann Arbor USA

5. EMAT and NANOlab Center of Excellence University of Antwerp B-2020 Antwerp Belgium

6. Ikerbasque Basque Foundation for Science 48009 Bilbao Spain

7. Biomedical Research Networking Center Bioengineering, Biomaterials and Nanomedicine, CIBER-BBN 20014 Donostia-San Sebastián Spain

8. Cinbio Universidade de Vigo 36310 Vigo Spain

Abstract

AbstractHandedness is an essential attribute of chiral nanocrystals, having a major influence on their properties. During chemical growth, the handedness of nanocrystals is usually tuned by selecting the corresponding enantiomer of chiral molecules involved in asymmetric growth, often known as chiral inducers. We report that, even using the same chiral inducer enantiomer, the handedness of chiral gold nanocrystals can be reversed by using Au nanorod seeds with either single crystalline or pentatwinned structure. This effect holds for chiral growth induced both by amino acids and by chiral micelles. Although it was challenging to discern the morphological handedness for L‐cystine‐directed particles, even using electron tomography, both cases showed circular dichroism bands of opposite sign, with nearly mirrored chiroptical signatures for chiral micelle‐directed growth, along with quasi‐helical wrinkles of inverted handedness. These results expand the chiral growth toolbox with an effect that might be exploited to yield a host of interesting morphologies with tunable optical properties.

Funder

H2020 European Research Council

Ministerio de Ciencia e Innovación

European Commission

Onderzoeksraad, KU Leuven

Publisher

Wiley

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