Ordering in stretch-tunable polymeric opal fibers | Zendy

Chris E. Finlayson | Zendy; Chris Goddard | Zendy; Elpida Papachristodoulou | Zendy; David R. E. Snoswell | Zendy; Andreas Kontogeorgos | Zendy; Peter Spahn | Zendy; G. P. Hellmann | Zendy; Ortwin Hess | Zendy; Jeremy J. Baumberg | Zendy

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Ordering in stretch-tunable polymeric opal fibers

Author(s) -

Chris E. Finlayson,

Chris Goddard,

Elpida Papachristodoulou,

David R. E. Snoswell,

Andreas Kontogeorgos,

Peter Spahn,

G. P. Hellmann,

Ortwin Hess,

Jeremy J. Baumberg

Publication year - 2011

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.19.003144

Subject(s) - optics , materials science , optical fiber , physics

We demonstrate the production of high-quality polymer opal fibers in an industrially-scalable process. These fibers exhibit structural color, based on the self-assembly of sub-micron core-shell particles, with a spectrum which is stretch-tunable across the visible region. The internal substructure and ordering of fibers, as inferred from variations in spectral bandwidth, is studied using dark-field microscopy. We employ a granular model to examine flow and shear forces during the extrusion process, and the effects on particle ordering. In both theory and experiment, a concentric zone of the fiber near the exposed surface develops particularly strong structural color. Such elastically-tuned structurally colored fibers are of interest for many applications.

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