Magdalena Twardowska scite author profile

Magdalena Twardowska

3Publications

73Citation Statements Received

75Citation Statements Given

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Affiliations

Institute of Physics, Nicolaus Copernicus University

Publications

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Metal‐Enhanced Fluorescence of Chlorophylls in Light‐Harvesting Complexes Coupled to Silver Nanowires

Kowalska

Krajnik

Olejnik

et al. 2013

The Scientific World Journal

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We investigate metal-enhanced fluorescence of peridinin-chlorophyll protein coupled to silver nanowires using optical microscopy combined with spectrally and time-resolved fluorescence techniques. In particular we study two different sample geometries: first, in which the light-harvesting complexes are deposited onto silver nanowires, and second, where solution of both nanostructures are mixed prior deposition on a substrate. The results indicate that for the peridinin-chlorophyll complexes placed in the vicinity of the silver nanowires we observe higher intensities of fluorescence emission as compared to the reference sample, where no nanowires are present. Enhancement factors estimated for the sample where the light-harvesting complexes are mixed together with the silver nanowires prior deposition on a substrate are generally larger in comparison to the other geometry of a hybrid nanostructure. While fluorescence spectra are identical both in terms of overall shape and maximum wavelength for peridinin-chlorophyll-protein complexes both isolated and coupled to metallic nanostructures, we conclude that interaction with plasmon excitations in the latter remains neutral to the functionality of the biological system. Fluorescence transients measured for the PCP complexes coupled to the silver nanowires indicate shortening of the fluorescence lifetime pointing towards modifications of radiative rate due to plasmonic interactions. Our results can be applied for developing ways to plasmonically control the light-harvesting capability of photosynthetic complexes.

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Imaging of fluorescence enhancement in photosynthetic complexes coupled to silver nanowires

Olejnik

Krajnik

Kowalska

et al. 2013

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Optical microscopy and spectroscopy of hybrid nanostructures composed of chlorophyll-containing photosynthetic complexes and silver nanowires reveal strong enhancement of fluorescence intensity of chlorophylls bound to the protein. This effect results from interaction between excited states of molecules embedded in the photosynthetic complex and plasmon excitations in metallic nanowires. Wide-field microscopy images reveal twofold increase of the emission intensity for complexes located at the ends of the nanowires as compared to the ones lying along the nanowires. Complementary spectrally and temporally resolved experiments indicate about 10-fold average increase of the chlorophyll fluorescence rate upon coupling with the metallic nanoparticles.

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Silver nanowires enhance absorption of poly(3-hexylthiophene)

Smolarek

Ebenhoch

Czechowski

et al. 2013

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Results of optical spectroscopy reveal strong influence of plasmon excitations in silver nanowires on the fluorescence properties of poly(3-hexylthiophene) (P3HT), which is one of the building blocks of organic solar cells. For the structure where a conductive polymer poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) was used as a spacer in order to minimize effects associated with non-radiative energy transfer from P3HT to metallic nanoparticles, we demonstrate over two-fold increase of the fluorescence intensity. Results of time-resolved fluorescence indicate that the enhancement of emission intensity can be attributed to increased absorption of P3HT. Our findings are a step towards improving the efficiency of organic solar cells through incorporation of plasmonic nanostructures.

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