Electrically conductive polymeric photonic crystalsElectronic Supplementary Information (ESI) available: details of sample preparation, optical & electronic characterisation, and electron microscopy. See DOI: 10.1039/c2sm06740d

Electrically conductive polymeric 3D photonic crystals are prepared by the shear ordering of composites consisting of monodisperse core-shell polymer spheres and single-walled carbon nanotubes (SWNTs). Strong iridescent colour indicates that the highly ordered opaline structures are not disrupted by...

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Hauptverfasser: Imai, Yusuke, Finlayson, Chris E, Goldberg-Oppenheimer, Pola, Zhao, Qibin, Spahn, Peter, Snoswell, David R. E, Haines, Andrew I, Hellmann, G. Peter, Baumberg, Jeremy J
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creator Imai, Yusuke
Finlayson, Chris E
Goldberg-Oppenheimer, Pola
Zhao, Qibin
Spahn, Peter
Snoswell, David R. E
Haines, Andrew I
Hellmann, G. Peter
Baumberg, Jeremy J
description Electrically conductive polymeric 3D photonic crystals are prepared by the shear ordering of composites consisting of monodisperse core-shell polymer spheres and single-walled carbon nanotubes (SWNTs). Strong iridescent colour indicates that the highly ordered opaline structures are not disrupted by the presence of the conductive nanotube networks. Thermal annealing leads to a significant increase in the overall electrical conductivity of thin-film samples yielding DC conductivities of 10 −4 S cm −1 , with percolation thresholds of less than 0.4 wt% of SWNT. Such composites with open networks of carbon nanotubes held apart by lattices of hard spheres, give combined conductive properties and structural colour effects, within a tuneable viscoelastic medium, with many potential functional applications. Electrically conductive polymeric 3D photonic crystals are prepared by the shear ordering of composites consisting of monodisperse core-shell polymer spheres and single-walled carbon nanotubes.
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title Electrically conductive polymeric photonic crystalsElectronic Supplementary Information (ESI) available: details of sample preparation, optical & electronic characterisation, and electron microscopy. See DOI: 10.1039/c2sm06740d
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