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“Smart” Defects in Colloidal Photonic Crystals

Published online by Cambridge University Press:  26 February 2011

Friederike Fleischhaker ,
André C. Arsenault ,
Nicolas Tétreault ,
Zhuo Wang ,
Vladimir Kitaev ,
Frank Peiris ,
Agustin Mihi ,
Hernan Miguez ,
Georg von Freymann  and
Ian Manners
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Friederike Fleischhaker
Affiliation:
ffleisch@chem.utoronto.ca, University of Toronto, Department of Chemistry, 80 St. George Street, Toronto, Ontario, M5S 3H6, Canada
André C. Arsenault
Affiliation:
aarsenau@chem.utoronto.ca, University of Toronto, Department of Chemistry
Nicolas Tétreault
Affiliation:
ntetreau@chem.utoronto.ca, University of Toronto, Department of Chemistry, Canada
Zhuo Wang
Affiliation:
zwang@chem.utoronto.ca, University of Toronto, Department of Chemistry, Canada
Vladimir Kitaev
Affiliation:
vkitaev@chem.utoronto.ca, University of Toronto, Department of Chemistry
Frank Peiris
Affiliation:
fpeiris@chem.utoronto.ca, University of Toronto, Department of Chemistry, Canada
Agustin Mihi
Affiliation:
agustin.mihi@icmse.csic.es, Instituto de Ciencia de Materiales de Sevilla, Spain
Hernan Miguez
Affiliation:
hernan@icmse.csic.es, Instituto de Ciencia de Materiales de Sevilla, Spain
Georg von Freymann
Affiliation:
georg.freymann@physik.uni-karlsruhe.de, University of Toronto, Department of Chemistry, Canada
Ian Manners
Affiliation:
imanners@chem.utoronto.ca, University of Toronto, Department of Chemistry, Canada
Rudolf Zentel
Affiliation:
zentel@uni-mainz.de, University of Mainz, Department of Chemistry and Pharmacy, Germany
Geoffrey A. Ozin
Affiliation:
gozin@chem.utoronto.ca, University of Toronto, Department of Chemistry, Canada
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Abstract

We present a bottom-up approach for the construction of "Smart" active defects in colloidal photonic crystals (CPCs). These structures incorporate polyelectrolyte multilayer (PEM) planar defects embedded in silica CPCs through a combination of evaporation induced self-assembly and microcontact transfer printing. We show how the enormous chemical diversity inherent to PEMs can be harnessed to create chemically active defect structures responsive to solvent vapor pressures, light, temperature as well as redox cycling. A sharp transmission state within the photonic stopband, induced by the PEM defect, can be precisely, reproducibly and in some cases reversibly tuned by these external stimuli.

These materials could find numerous applications as optically monitored chemical sensors, adjustable notch filters and CPC-based tunable laser sources.

Keywords

colloiddefectsself-assembly
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 901: Symposium R – Assembly at the Nanoscale – Toward Functional Nanostructured Materials , 2005 , 0901-Ra22-27-Rb22-27
Copyright
Copyright © Materials Research Society 2006

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