Author
Listed:
- Anthony Ruth
(University of Notre Dame)
- Michitoshi Hayashi
(National Taiwan University, Center for Condensed Matter Sciences, National Taiwan University,)
- Peter Zapol
(Argonne National Laboratory)
- Jixin Si
(University of Notre Dame)
- Matthew P. McDonald
(Max Planck Institute for the Science of Light)
- Yurii V. Morozov
(University of Notre Dame)
- Masaru Kuno
(University of Notre Dame)
- Boldizsár Jankó
(University of Notre Dame)
Abstract
Fluorescence intermittency or blinking is observed in nearly all nanoscale fluorophores. It is characterized by universal power-law distributions in on- and off-times as well as 1/f behaviour in corresponding emission power spectral densities. Blinking, previously seen in confined zero- and one-dimensional systems has recently been documented in two-dimensional reduced graphene oxide. Here we show that unexpected blinking during graphene oxide-to-reduced graphene oxide photoreduction is attributed, in large part, to the redistribution of carbon sp2 domains. This reclustering generates fluctuations in the number/size of emissive graphenic nanoclusters wherein multiscale modelling captures essential experimental aspects of reduced graphene oxide’s absorption/emission trajectories, while simultaneously connecting them to the underlying photochemistry responsible for graphene oxide’s reduction. These simulations thus establish causality between currently unexplained, long timescale emission intermittency in a quantum mechanical fluorophore and identifiable chemical reactions that ultimately lead to switching between on and off states.
Suggested Citation
Anthony Ruth & Michitoshi Hayashi & Peter Zapol & Jixin Si & Matthew P. McDonald & Yurii V. Morozov & Masaru Kuno & Boldizsár Jankó, 2017.
"Fluorescence intermittency originates from reclustering in two-dimensional organic semiconductors,"
Nature Communications, Nature, vol. 8(1), pages 1-7, April.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms14521
DOI: 10.1038/ncomms14521
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