Spectral Diffusion of Single Molecules in a Hierarchical Energy Landscape Journalartikel uri icon

 

Abstract

  • Spectral diffusion as a result of both the transitions between different molecular conformers and the ′′molecular softness′′ of quasi-free perylene diimides on a SiO2 surface is investigated by means of single-molecule spectroscopy, which reveals the time dependence of both the fluorescence spectra and the three-dimensional orientation. Spectral wavelengths of all single emitters cover a wide energy range of about 0.27 eV, which is due to different types of conformers with large differences in optical transition energy. Time-dependent spectral trajectories of single emitters within this wavelength manifold are evaluated with a model transcribed from the analysis of spatial diffusion. Spectral diffusion processes are closely correlated with fluorescence emission and excitation power. The overall analysis of spectral diffusion reveals, similar to proteins, a hierarchy of energy barriers in a broad energy landscape.

AutorInnen

  • Krause, Stefan
  • Kowerko, Danny
  • Börner, Richard
  • Hübner, Christian G.
  • von Borczyskowski, Christian

Veröffentlichungszeitpunkt

  • 2011

Zugangsrechte

  • false

Heftnummer

  • 2

Band

  • 12

Startseite

  • 303

letzte Seite

  • 312

Seitenzahl

  • 9