Journal
SCIENCE
Volume 328, Issue 5982, Pages 1135-1138Publisher
AMER ASSOC ADVANCEMENT SCIENCE
DOI: 10.1126/science.1187949
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Funding
- NSF Nanoscale Interdisciplinary Research Team [ECCS-0709323]
- Air Force Office of Scientific Research (AFOSR) Multidisciplinary University Research Initiative [FA9550-06-1-0279, FA9550-08-1-0394]
- U.S. Department of Defense National Security Science and Engineering Faculty
- Robert A. Welch Foundation [C-1220, C-1222]
- AFOSR [F49620-03-C-0068]
- SUG@R (Shared University Grid at Rice) team
- Center for Advanced Solar Photophysics, U.S. Department of Energy Energy Frontier Research Center
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The self-assembly of colloids is an alternative to top-down processing that enables the fabrication of nanostructures. We show that self-assembled clusters of metal-dielectric spheres are the basis for nanophotonic structures. By tailoring the number and position of spheres in close-packed clusters, plasmon modes exhibiting strong magnetic and Fano-like resonances emerge. The use of identical spheres simplifies cluster assembly and facilitates the fabrication of highly symmetric structures. Dielectric spacers are used to tailor the interparticle spacing in these clusters to be approximately 2 nanometers. These types of chemically synthesized nanoparticle clusters can be generalized to other two- and three-dimensional structures and can serve as building blocks for new metamaterials.
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