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Micro, Nano, and Molecular Systems Article 2013

Hybrid nanocolloids with programmed three-dimensional shape and material composition

Thumb ticker sm gibbs john
Micro, Nano, and Molecular Systems
John Gibbs
PostDoc, then Assistant Professor in Physics at Northern Arizona University, USA.
Thumb ticker sm mark andrew
Micro, Nano, and Molecular Systems
Andrew Mark
PostDoc, Petzow Prize winner (2015), now Manager of Optical Engineering at Metamaterial Technologies Inc. (MTI), Nova Scotia, Canada.
Thumb ticker sm peer fischer portrait
Micro, Nano, and Molecular Systems
Peer Fischer
Professor
Thumb ticker sm lee tung chun john
Micro, Nano, and Molecular Systems
Tung Chun Lee
PostDoc, now Lecturer, Institute for Materials Discovery, University College London
Toc image

Tuning the optical(1,2), electromagnetic(3,4) and mechanical properties of a material requires simultaneous control over its composition and shape(5). This is particularly challenging for complex structures at the nanoscale because surface-energy minimization generally causes small structures to be highly symmetric(5). Here we combine low-temperature shadow deposition with nanoscale patterning to realize nanocolloids with anisotropic three-dimensional shapes, feature sizes down to 20 nm and a wide choice of materials. We demonstrate the versatility of the fabrication scheme by growing three-dimensional hybrid nanostructures that contain several functional materials with the lowest possible symmetry, and by fabricating hundreds of billions of plasmonic nanohelices, which we use as chiral metafluids with record circular dichroism and tunable chiroptical properties. <p> Max Planck Press Release. <p>

Author(s): Mark, Andrew G. and Gibbs, John G. and Lee, Tung-Chun and Fischer, Peer
Journal: NATURE MATERIALS
Volume: 12
Number (issue): 9
Pages: 802-807
Year: 2013
Bibtex Type: Article (article)
DOI: 10.1038/NMAT3685
Electronic Archiving: grant_archive
Note: Max Planck Press Release.
Links:

BibTex 

@article{ISI:000323417600016,
  title = {Hybrid nanocolloids with programmed three-dimensional shape and material composition},
  journal = {NATURE MATERIALS},
  abstract = {Tuning the optical(1,2), electromagnetic(3,4) and mechanical properties of a material requires simultaneous control over its composition and shape(5). This is particularly challenging for complex structures at the nanoscale because surface-energy minimization generally causes small structures to be highly symmetric(5). Here we combine low-temperature shadow deposition with nanoscale patterning to realize nanocolloids with anisotropic three-dimensional shapes, feature sizes down to 20 nm and a wide choice of materials. We demonstrate the versatility of the fabrication scheme by growing three-dimensional hybrid nanostructures that contain several functional materials with the lowest possible symmetry, and by fabricating hundreds of billions of plasmonic nanohelices, which we use as chiral metafluids with record circular dichroism and tunable chiroptical properties.
  <p>
  Max Planck Press Release.
  <p>},
  volume = {12},
  number = {9},
  pages = {802-807},
  year = {2013},
  note = {Max Planck Press Release.},
  slug = {isi-000323417600016},
  author = {Mark, Andrew G. and Gibbs, John G. and Lee, Tung-Chun and Fischer, Peer}
}