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Bipyramid-templated synthesis of monodisperse anisotropic gold nanocrystals

Author

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  • Jung-Hoon Lee

    (The University of Chicago)

  • Kyle J. Gibson

    (The University of Chicago)

  • Gang Chen

    (The University of Chicago)

  • Yossi Weizmann

    (The University of Chicago)

Abstract

Much of the interest in noble metal nanoparticles is due to their plasmonic resonance responses and local field enhancement, both of which can be tuned through the size and shape of the particles. However, both properties suffer from the loss of monodispersity that is frequently associated with various morphologies of nanoparticles. Here we show a method to generate diverse and monodisperse anisotropic gold nanoparticle shapes with various tip geometries as well as highly tunable size augmentations through either oxidative etching or seed-mediated growth of purified, monodisperse gold bipyramids. The conditions employed in the etching and growth processes also offer valuable insights into the growth mechanism difficult to realize with other gold nanostructures. The high-index facets and more complicated structure of the bipyramid lead to a wider variety of intriguing regrowth structures than in previously studied nanoparticles. Our results introduce a class of gold bipyramid-based nanoparticles with interesting and potentially useful features to the toolbox of gold nanoparticles.

Suggested Citation

  • Jung-Hoon Lee & Kyle J. Gibson & Gang Chen & Yossi Weizmann, 2015. "Bipyramid-templated synthesis of monodisperse anisotropic gold nanocrystals," Nature Communications, Nature, vol. 6(1), pages 1-9, November.
    • Handle: RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms8571
    DOI: 10.1038/ncomms8571
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    Cited by:

    1. Ahyoung Kim & Thi Vo & Hyosung An & Progna Banerjee & Lehan Yao & Shan Zhou & Chansong Kim & Delia J. Milliron & Sharon C. Glotzer & Qian Chen, 2022. "Symmetry-breaking in patch formation on triangular gold nanoparticles by asymmetric polymer grafting," Nature Communications, Nature, vol. 13(1), pages 1-14, December.
    2. Hirokatsu Yumoto & Takahisa Koyama & Akihiro Suzuki & Yasumasa Joti & Yoshiya Niida & Kensuke Tono & Yoshitaka Bessho & Makina Yabashi & Yoshinori Nishino & Haruhiko Ohashi, 2022. "High-fluence and high-gain multilayer focusing optics to enhance spatial resolution in femtosecond X-ray laser imaging," Nature Communications, Nature, vol. 13(1), pages 1-8, December.

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