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Energy Transfer from Photosystem I to Thermally Reduced Graphene Oxide.


ABSTRACT: The energy transfer from photosynthetic complex photosystem I to thermally reduced graphene oxide was studied using fluorescence microscopy and spectroscopy, and compared against the structure in which monolayer epitaxial graphene was used as the energy acceptor. We find that the properties of reduced graphene oxide (rGO) as an energy acceptor is qualitatively similar to that of epitaxial graphene. Fluorescence quenching, which in addition to shortening of fluorescence decay, is a signature of energy transfer varies across rGO substrates and correlates with the transmission pattern. We conclude that the efficiency of the energy transfer depends on the number of rGO layers in the flakes and decreases with this number. Furthermore, careful analysis of fluorescence imaging data confirms that the energy transfer efficiency dependence on the excitation wavelength, also varies with the number of rGO flakes.

SUBMITTER: Sulowska K 

PROVIDER: S-EPMC6164758 | biostudies-literature | 2018 Aug

REPOSITORIES: biostudies-literature

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Energy Transfer from Photosystem I to Thermally Reduced Graphene Oxide.

Sulowska Karolina K   Wiwatowski Kamil K   Szustakiewicz Piotr P   Grzelak Justyna J   Lewandowski Wiktor W   Mackowski Sebastian S  

Materials (Basel, Switzerland) 20180830 9


The energy transfer from photosynthetic complex photosystem I to thermally reduced graphene oxide was studied using fluorescence microscopy and spectroscopy, and compared against the structure in which monolayer epitaxial graphene was used as the energy acceptor. We find that the properties of reduced graphene oxide (rGO) as an energy acceptor is qualitatively similar to that of epitaxial graphene. Fluorescence quenching, which in addition to shortening of fluorescence decay, is a signature of e  ...[more]

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