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Controlled-reflectance surfaces with film-coupled colloidal nanoantennas

Author

Listed:
  • Antoine Moreau

    (Center for Metamaterials and Integrated Plasmonics, Duke University
    Clermont Université, Université Blaise Pascal, Institut Pascal, BP 10448, 63000 Clermont-Ferrand, France
    CNRS, UMR 6602, IP, 63171 Aubière, France)

  • Cristian Ciracì

    (Center for Metamaterials and Integrated Plasmonics, Duke University)

  • Jack J. Mock

    (Center for Metamaterials and Integrated Plasmonics, Duke University)

  • Ryan T. Hill

    (Center for Biologically Inspired Materials and Material Systems, Duke University)

  • Qiang Wang

    (Duke University
    Laboratory for Micro-sized Functional Materials & College of Elementary Education, Capital Normal University)

  • Benjamin J. Wiley

    (Duke University)

  • Ashutosh Chilkoti

    (Center for Biologically Inspired Materials and Material Systems, Duke University
    Duke University)

  • David R. Smith

    (Center for Metamaterials and Integrated Plasmonics, Duke University)

Abstract

Randomly adsorbing chemically synthesized silver nanocubes, each of which is the optical analogue of a grounded patch antenna, onto a nanoscale-thick polymer spacer layer on a gold film results in a metamaterial surface with a reflectance spectrum that can be tailored by varying the geometry.

Suggested Citation

  • Antoine Moreau & Cristian Ciracì & Jack J. Mock & Ryan T. Hill & Qiang Wang & Benjamin J. Wiley & Ashutosh Chilkoti & David R. Smith, 2012. "Controlled-reflectance surfaces with film-coupled colloidal nanoantennas," Nature, Nature, vol. 492(7427), pages 86-89, December.
    • Handle: RePEc:nat:nature:v:492:y:2012:i:7427:d:10.1038_nature11615
    DOI: 10.1038/nature11615
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    Cited by:

    1. Yu, Peiqi & Yang, Hua & Chen, Xifang & Yi, Zao & Yao, Weitang & Chen, Jiafu & Yi, Yougen & Wu, Pinghui, 2020. "Ultra-wideband solar absorber based on refractory titanium metal," Renewable Energy, Elsevier, vol. 158(C), pages 227-235.

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