Novel hybrid organic/inorganic 2D quasiperiodic PC: from diffraction pattern to vertical light extraction

Novel hybrid organic/inorganic 2D quasiperiodic PC: from diffraction pattern to vertical light extraction

<p>Abstract</p> <p>Recently, important efforts have been dedicated to the realization of a fascinating class of new photonic materials or metamaterials, known as photonic quasicrystals (PQCs), in which the lack of the translational symmetry is compensated by rotational symmetries n...

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Main Authors: Zhou Jun, Manna Liberato, Zanella Marco, Petti Lucia, Rippa Massimo, Mormile Pasquale
Format: Article
Language:English
Published: SpringerOpen 2011-01-01
Series:Nanoscale Research Letters
Online Access:http://www.nanoscalereslett.com/content/6/1/371
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spelling doaj-b5669d6ac05a4665843d90a7fa70b9332020-11-25T00:01:47ZengSpringerOpenNanoscale Research Letters1931-75731556-276X2011-01-0161371Novel hybrid organic/inorganic 2D quasiperiodic PC: from diffraction pattern to vertical light extractionZhou JunManna LiberatoZanella MarcoPetti LuciaRippa MassimoMormile Pasquale<p>Abstract</p> <p>Recently, important efforts have been dedicated to the realization of a fascinating class of new photonic materials or metamaterials, known as photonic quasicrystals (PQCs), in which the lack of the translational symmetry is compensated by rotational symmetries not achievable by the conventional periodic crystals. As ever, more advanced functionality is demanded and one strategy is the introduction of non-linear and/or active functionality in photonic materials. In this view, core/shell nanorods (NRs) are a promising active material for light-emitting applications. In this article a two-dimensional (2D) hybrid a 2D octagonal PQC which consists of air rods in an organic/inorganic nanocomposite is proposed and experimentally demonstrated. The nanocomposite was prepared by incorporating CdSe/CdS core/shell NRs into a polymer matrix. The PQC was realized by electron beam lithography (EBL) technique. Scanning electron microscopy, far field diffraction and spectra measurements are used to characterize the experimental structure. The vertical extraction of the light, by the coupling of the modes guided by the PQC slab to the free radiation via Bragg scattering, consists of a narrow red emissions band at 690 nm with a full width at half-maximum (FWHM) of 21.5 nm. The original characteristics of hybrid materials based on polymers and colloidal NRs, able to combine the unique optical properties of the inorganic moiety with the processability of the host matrix, are extremely appealing in view of their technological impact on the development of new high performing optical devices such as organic light-emitting diodes, ultra-low threshold lasers, and non-linear devices.</p> <p> <b>PACS: </b>81.07.Pr Organic-inorganic hybrid nanostructures, 81.16.-c Methods of nanofabrication and processing, 42.70.Qs Photonic band-gap materials.</p> http://www.nanoscalereslett.com/content/6/1/371
collection DOAJ
language English
format Article
sources DOAJ
author Zhou Jun
Manna Liberato
Zanella Marco
Petti Lucia
Rippa Massimo
Mormile Pasquale
spellingShingle Zhou Jun
Manna Liberato
Zanella Marco
Petti Lucia
Rippa Massimo
Mormile Pasquale
Novel hybrid organic/inorganic 2D quasiperiodic PC: from diffraction pattern to vertical light extraction
Nanoscale Research Letters
author_facet Zhou Jun
Manna Liberato
Zanella Marco
Petti Lucia
Rippa Massimo
Mormile Pasquale
author_sort Zhou Jun
title Novel hybrid organic/inorganic 2D quasiperiodic PC: from diffraction pattern to vertical light extraction
title_short Novel hybrid organic/inorganic 2D quasiperiodic PC: from diffraction pattern to vertical light extraction
title_full Novel hybrid organic/inorganic 2D quasiperiodic PC: from diffraction pattern to vertical light extraction
title_fullStr Novel hybrid organic/inorganic 2D quasiperiodic PC: from diffraction pattern to vertical light extraction
title_full_unstemmed Novel hybrid organic/inorganic 2D quasiperiodic PC: from diffraction pattern to vertical light extraction
title_sort novel hybrid organic/inorganic 2d quasiperiodic pc: from diffraction pattern to vertical light extraction
publisher SpringerOpen
series Nanoscale Research Letters
issn 1931-7573
1556-276X
publishDate 2011-01-01
description <p>Abstract</p> <p>Recently, important efforts have been dedicated to the realization of a fascinating class of new photonic materials or metamaterials, known as photonic quasicrystals (PQCs), in which the lack of the translational symmetry is compensated by rotational symmetries not achievable by the conventional periodic crystals. As ever, more advanced functionality is demanded and one strategy is the introduction of non-linear and/or active functionality in photonic materials. In this view, core/shell nanorods (NRs) are a promising active material for light-emitting applications. In this article a two-dimensional (2D) hybrid a 2D octagonal PQC which consists of air rods in an organic/inorganic nanocomposite is proposed and experimentally demonstrated. The nanocomposite was prepared by incorporating CdSe/CdS core/shell NRs into a polymer matrix. The PQC was realized by electron beam lithography (EBL) technique. Scanning electron microscopy, far field diffraction and spectra measurements are used to characterize the experimental structure. The vertical extraction of the light, by the coupling of the modes guided by the PQC slab to the free radiation via Bragg scattering, consists of a narrow red emissions band at 690 nm with a full width at half-maximum (FWHM) of 21.5 nm. The original characteristics of hybrid materials based on polymers and colloidal NRs, able to combine the unique optical properties of the inorganic moiety with the processability of the host matrix, are extremely appealing in view of their technological impact on the development of new high performing optical devices such as organic light-emitting diodes, ultra-low threshold lasers, and non-linear devices.</p> <p> <b>PACS: </b>81.07.Pr Organic-inorganic hybrid nanostructures, 81.16.-c Methods of nanofabrication and processing, 42.70.Qs Photonic band-gap materials.</p>
url http://www.nanoscalereslett.com/content/6/1/371
work_keys_str_mv AT zhoujun novelhybridorganicinorganic2dquasiperiodicpcfromdiffractionpatterntoverticallightextraction
AT mannaliberato novelhybridorganicinorganic2dquasiperiodicpcfromdiffractionpatterntoverticallightextraction
AT zanellamarco novelhybridorganicinorganic2dquasiperiodicpcfromdiffractionpatterntoverticallightextraction
AT pettilucia novelhybridorganicinorganic2dquasiperiodicpcfromdiffractionpatterntoverticallightextraction
AT rippamassimo novelhybridorganicinorganic2dquasiperiodicpcfromdiffractionpatterntoverticallightextraction
AT mormilepasquale novelhybridorganicinorganic2dquasiperiodicpcfromdiffractionpatterntoverticallightextraction
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