Long range energy transfer in graphene hybrid structures

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abstract

In this work we quantify the distance dependence for the extraction of energy from excited chromophores by a single layer graphene flake over a large separation range. To this end hybrid structures were prepared, consisting of a thin (2 nm) layer of a polymer matrix doped with a well chosen strongly fluorescent organic molecule, followed by an un-doped spacer layer of well-defined thicknesses made of the same polymer material and an underlying single layer of pristine, undoped graphene. The coupling strength is assessed through the variation of the fluorescence decay kinetics as a function of distance between the graphene and the excited chromophore molecules. Non-radiative energy transfer to the graphene was observed at distances of up to 60 nm; a range much greater than typical energy transfer distances observed in molecular systems.

keywords

MICROSCOPY; FILMS

subject category

Physics

authors

Goncalves, H; Bernardo, C; Moura, C; Ferreira, RAS; Andre, PS; Stauber, T; Belsley, M; Schellenberg, P

our authors

foto Maria Rute de Amorim e Sá Ferreira André

Maria Rute de Amorim e Sá Ferreira André

Vice Director

Groups

1 - Inorganic Functional Nanomaterials and Organic-Inorganic Hybrids

acknowledgements

We thank Nuno Peres and Bruno Amorim for informative discussions. This work was supported by FEDER through the COMPETE Program and by the Portuguese Foundation for Science and Technology (FCT) in the framework of the Strategic Project PEST-C/FIS/UI607/2011 and under grant PTDC/FIS/101434/2008. TS has been supported by Spain's MINECO under Grant No. FIS2014-57432-P and by the Comunidad de Madrid under Grant No. S2013/MIT-3007 MAD2D-CM.

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Publication Details

type
Journal Article
year
2016
journal
JOURNAL OF PHYSICS D-APPLIED PHYSICS
volume
49
article number
315102
publisher
IOP PUBLISHING LTD
issn
0022-3727
issue
31
digital object identifier
10.1088/0022-3727/49/31/315102
web of science article identifier
WOS:000384003000005

Journal Metrics (JCR 2019)

Journal Impact Factor
3.169
Journal Impact Factor (5 yrs)
2.902
category normalized journal percentile
71.753

Citations

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