Article
3D photonic crystals from highly monodisperse FRET-based red luminescent PMMA spheres
Author/s | López, C.
Muñoz, A. Ibisote, M. Galisteo López, Juan Francisco |
Publication Date | 2015 |
Deposit Date | 2018-04-17 |
Published in |
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Abstract | Red-luminescent PMMA spheres containing a Förster resonance energy transfer (FRET) pair were synthesized via a two-step polymerization method. Two reaction parameters, time and monomer volume, are scanned in order to tune ... Red-luminescent PMMA spheres containing a Förster resonance energy transfer (FRET) pair were synthesized via a two-step polymerization method. Two reaction parameters, time and monomer volume, are scanned in order to tune the sphere diameter in the 250-500 nm range. Further the polydispersity of the spheres is kept low, at ca. 3%, regardless of sphere diameter or dye concentration. A thorough optical characterization via spectroscopy and time resolved measurements shows a FRET efficiency of over 40% before concentration quenching effects take place, allowing for a precise tuning of their emission in the red region of the visible spectrum. The high quality of these spheres makes them suitable to fabricate self-assembled 3D photonic crystals which act as photonic environment to modify the spectral properties of the FRET pair via Bragg diffraction. |
Funding agencies | Ministerio de Economía y Competitividad (MINECO). España Comunidad Autónoma de Madrid |
Project ID. | MAT2012-31659
S2013/MIT-2740 |
Citation | López, C., Muñoz, A., Ibisote, M. y Galisteo López, J.F. (2015). 3D photonic crystals from highly monodisperse FRET-based red luminescent PMMA spheres. Journal of Materials Chemistry C, 3, 3999-4006. |
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