Organic materials have revolutionized optoelectronics by their processability, flexibility and low cost, with application to light emitting devices for full-colour screens, solar cells and lasers. Some low-dimensional organic semiconductor structures exhibit properties resembling those of inorganics, such as polarized emission and enhanced electroluminescence. One-dimensional metallic, III–V and II–VI nanostructures have also been the subject of intense investigation as building blocks for nanoelectronics and photonics. Given that onedimensional polymer nanostructures, such as polymer nanofibres, are compatible with sub-micrometre patterning capability and electromagnetic confinement within subwavelength volumes, they can offer the benefits of organic light sources to nanoscale optics. Here we report on the optical properties of fully conjugated, electrospun polymer nanofibres. We assess their waveguiding performance and emission tuneability in the whole visible range. We demonstrate the enhancement of the fibre forward emission through imprinting periodic nanostructures using room-temperature nanoimprint lithography, and investigate the angular dispersion of differently polarized emitted light.

Patterning of light emitting conjugated polymer nanofibers

PAGLIARA, STEFANO;STABILE, RIPALTA;CINGOLANI, Roberto;PISIGNANO, Dario
2008-01-01

Abstract

Organic materials have revolutionized optoelectronics by their processability, flexibility and low cost, with application to light emitting devices for full-colour screens, solar cells and lasers. Some low-dimensional organic semiconductor structures exhibit properties resembling those of inorganics, such as polarized emission and enhanced electroluminescence. One-dimensional metallic, III–V and II–VI nanostructures have also been the subject of intense investigation as building blocks for nanoelectronics and photonics. Given that onedimensional polymer nanostructures, such as polymer nanofibres, are compatible with sub-micrometre patterning capability and electromagnetic confinement within subwavelength volumes, they can offer the benefits of organic light sources to nanoscale optics. Here we report on the optical properties of fully conjugated, electrospun polymer nanofibres. We assess their waveguiding performance and emission tuneability in the whole visible range. We demonstrate the enhancement of the fibre forward emission through imprinting periodic nanostructures using room-temperature nanoimprint lithography, and investigate the angular dispersion of differently polarized emitted light.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11587/327560
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