Simeonika Rangełowa-Jankowska scite author profile

Simeonika Rangełowa-Jankowska

5Publications

68Citation Statements Received

76Citation Statements Given

How they've been cited

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156

Affiliations

University of Gdańsk

Publications

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Surface Plasmon-Coupled Emission of Rhodamine 110 Aggregates in a Silica Nanolayer

Rangełowa-Jankowska

Jankowski

Bogdanowicz

et al. 2012

J. Phys. Chem. Lett.

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First analysis of strong directional surface plasmon-coupled emission (SPCE) of ground-state formed intermolecular aggregates of Rhodamine 110 (R110) in silica nanofilms deposited on silver nanolayers is reported. Until now, the processes of energy transport and its trapping due to aggregate formation have not been studied in the presence of SPCE. A new approach to multicomponent systems with weakly and strongly fluorescent centers making use of fluorophore-surface plasmon interaction is presented. The analysis is based on comparison of experimental free-space emission spectra (F-SE), experimental SPCE with theoretical surface plasmon resonance spectra (SPR). It is shown that, due to the dispersion of SPCE, the detection of weak aggregate emission is straightforward if only the monomers and aggregates fluorescence spectra are somewhat spectrally shifted. SPCE studies confirmed the formation of weakly fluorescent higher order aggregates of R110 in silica films. The results indicate that the increase of energy transfer from monomers to aggregates is due to fluorophore-plasmon interaction.

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Surface‐Plasmon‐Coupled Emission of Rhodamine 110 in a Silica Nanolayer

Rangełowa-Jankowska¹,

Jankowski²,

Grobelna³

et al. 2011

ChemPhysChem

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The first observation of strong directional surface-plasmon-coupled emission (SPCE) of Rhodamine 110 in silica nanofilms deposited on silver nanolayers is reported. The preparation of the material is described in detail. The intensity of SPCE exceeds 10 times that of free space fluorescence and total linear light polarization in the SPCE ring is observed. A new experimental setup and an original data collection method is presented. Our material completely preserves its fluorescence properties for at least eight months.

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Donor–acceptor nonradiative energy transfer mediated by surface plasmons on ultrathin metallic films

et al. 2010

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Förster Resonance Energy Transfer and Trapping in Selected Systems: Analysis by Monte-Carlo Simulation

Bojarski¹,

Synak²,

Kułak³

et al. 2012

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Nonradiative long range energy transfer in donor–acceptor systems with excluded volume

Rangełowa-Jankowska¹,

Kułak²,

Bojarski³

2008

Chemical Physics Letters

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