Chloride Ligands on DNA-Stabilized Silver Nanoclusters
Anna Gonzàlez‐Rosell, Sami Malola, Rweetuparna Guha, Nery Arevalos, María Francisca Matus, Meghen E. Goulet, Esa Haapaniemi, Benjamin B. Katz, Tom Vosch, Jiro Kondo, Hannu Häkkinen, Stacy M. Copp
Abstract
High Resolution Image Download MS PowerPoint Slide DNA-stabilized silver nanoclusters (Ag N -DNAs) are known to have one or two DNA oligomer ligands per nanocluster. Here, we present the first evidence that Ag N -DNA species can possess additional chloride ligands that lead to increased stability in biologically relevant concentrations of chloride. Mass spectrometry of five chromatographically isolated near-infrared (NIR)-emissive Ag N -DNA species with previously reported X-ray crystal structures determines their molecular formulas to be (DNA) 2 [Ag 16 Cl 2 ] 8+ . Chloride ligands can be exchanged for bromides, which red-shift the optical spectra of these emitters. Density functional theory (DFT) calculations of the 6-electron nanocluster show that the two newly identified chloride ligands were previously assigned as low-occupancy silvers by X-ray crystallography. DFT also confirms the stability of chloride in the crystallographic structure, yields qualitative agreement between computed and measured UV–vis absorption spectra, and provides interpretation of the 35 Cl-nuclear magnetic resonance spectrum of (DNA) 2 [Ag 16 Cl 2 ] 8+ . A reanalysis of the X-ray crystal structure confirms that the two previously assigned low-occupancy silvers are, in fact, chlorides, yielding (DNA) 2 [Ag 16 Cl 2 ] 8+ . Using the unusual stability of (DNA) 2 [Ag 16 Cl 2 ] 8+ in biologically relevant saline solutions as a possible indicator of other chloride-containing Ag N -DNAs, we identified an additional Ag N -DNA with a chloride ligand by high-throughput screening. Inclusion of chlorides on Ag N -DNAs presents a promising new route to expand the diversity of Ag N -DNA structure–property relationships and to imbue these emitters with favorable stability for biophotonics applications.