Metamaterials are a new sort of optical material constructed from nano-engineered elements
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Metamaterials are built from individual elements, designed to mimic the electromagnetic response of atoms. Stacking many nano-engineered elements smaller than the wavelength of light makes new solid materials. Such materials have extremely unusual properties, such as negative refractive indices to focus light much smaller than its wavelength (super-lensing), or electromagnetic cloaking (of an object). |
Current Work
Roll-to-roll (R2R) large-area nano-assembly We are developing a new R2R kit for large area assembly of active metamaterial nanostructures in a collaboration between the Institute for Manufacturing, Chemistry, and NanoPhotonics. |
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Self-assembling gyroid metamaterials Key papers: |
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Optical woodpile metamaterials Key paper: Ibbotson et al., Sci.Rep. 5, 8313 (2015) |
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Flexible elastic coloured mirrors |
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Roll-up scalable metamaterials |
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Metallo-dielectric stacks |
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Nano-pillar array metamaterial filters Using arrays of coated silicon or carbon nanotube pillars, optical filters with different properties can be constructed. |
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Flexible polymer multilayers Colours can be produced by absorption from dyes (as in our clothes and possessions) or the selective reflection of specific colours of light inside structures on the same size as the wavelength of light. Multilayers made from alternately stacking two transparent materials around a tenth of a micron thick give this effect, reflecting a band of colours depending on the exact layers dimensions. However such structures cannot be tuned easily. |
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Stretchable colour materials By using two different transparent rubber polymers that can be precisely coated on top of each other, we make large area sheets of double layers that can then be stacked to form multilayers in a number of ways once they have been floated free onto the surface of water. The double sheets can be cut and stacked, or folded on top of each other, or rolled up into a tube. |
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Beyond 10 double layers, the films gain a strong colour in reflection. Because the films are elastic, they can be stretched and since this changes the layer thicknesses, the films change colour. We have made red films which can be reversibly extended by >50% tuning right into the blue. |
Previous work:
[4] S. Vignolini , N. A. Yufa , P. S. Cunha , S. Guldin , I. Rushkin , M. Stefi k , K. Hur , U. Wiesner , J.J. Baumberg , U. Steiner, Advanced Materials (2011); DOI:10.1002/adma.201103610
[3] G. Kamita, M. Kolle, F. Huang, J. J. Baumberg, U. Steiner, Optics Express 20, 6421 (2012)
[2] N. Gibbons, J. J. Baumberg – Phys. Rev. B 85, 165422 (2012)
[1] “Scalable Cylindrical Metallo-dielectric Metamaterials”, N. Gibbons, J.J. Baumberg, C.L. Bower, M. Kolle, U. Steiner, Advanced Materials 21, 3933 (2009). [pdf]