What Contributes to the Measured Chiral Optical Response of the Glutathione-Protected Au<sub>25</sub> Nanocluster?
Marta Monti, María Francisca Matus, Sami Malola, Alessandro Fortunelli, Massimiliano Aschi, Mauro Stener, Hannu Häkkinen
Abstract
nanocluster was investigated by integrating several methodologies such as molecular dynamics simulations, essential dynamics analysis, and state-of-the-art time-dependent density functional theory calculations. Fundamental aspects such as conformational, weak interactions and solvent effects, especially hydrogen-bonds, were included and found to play a fundamental role in assessing the optical response of this system. Our analysis demonstrated not only that the electronic circular dichroism is extremely sensitive to the solvent presence but also that the solvent itself plays an active role in the optical activity of such system, forming a chiral solvation shell around the cluster. Our work demonstrates a successful strategy to investigate in detail chiral interfaces between metal nanoclusters and their environments, applicable, e.g., to chiral electronic interactions between clusters and biomolecules.