Ag−DNA Emitter: Metal Nanorod or Supramolecular Complex?

Ruslan R. Ramazanov, Tomash S. Sych, Zakhar V. Reveguk, Dmitriy A. Maksimov, Artem A. Vdovichev, Alexei I. Kononov

Research output

27 Citations (Scopus)

Abstract

Ligand-stabilized luminescent metal clusters, in particular, DNA-based Ag clusters, are now employed in a host of applications such as sensing and bioimaging. Despite their utility, the nature of their excited states as well as detailed structures of the luminescent metal–ligand complexes remain poorly understood. We apply a new joint experimental and theoretical approach based on QM/MM-MD simulations of the fluorescence excitation spectra for three Ag clusters synthesized on a 12-mer DNA. Contrary to a previously proposed “rod-like” model, our results show that (1) three to four Ag atoms suffice to form a partially oxidized nanocluster emitting in visible range; (2) charge transfer from Ag cluster to DNA contributes to the excited states of the complexes; and (3) excitation spectra of the clusters are strongly affected by the bonding of Ag atoms to DNA bases. The presented approach can also provide a practical way to determine the structure and properties of other luminescent metal clusters.
Original languageEnglish
Pages (from-to)3560−3566
JournalJournal of Physical Chemistry Letters
Volume7
Issue number18
DOIs
Publication statusPublished - 2016

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