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Saturday, July 27, 2013

Hierarchical Photonic Synthesis of Hybrid Nanoparticle Assemblies

Zijie Yan, Uttam Manna, Wei Qin, Art Camire, Philippe Guyot-Sionnest, and Norbert F. Scherer

Optical “nano-manipulation”, measurement and control of small objects with nanoscale precision, requires strongly localized optical fields that are usually based on user-imposed shaping of the incident optical beam. Here we report an in-situ approach to reshape and enhance electromagnetic (EM) fields using scattering and interference that is concomitant with “dynamic self-assembly” of nanoparticle arrays using simple (unstructured) applied EM fields. We show that Ag nanoparticles (~140 nm dia.) illuminated by coherent light can form linear chains with nanometer precision via strong optical binding interactions. The chains, in turn, create highly shaped EM fields via coherent scattering from the particles, allowing less polarizable particles to be “co-trapped” in both intermediate-scale and near-field regimes. These less polarizable particles include quantum dots (CdSe/ZnS or CdSe/CdZnS core/shell nanocrystals; both are smaller than 10 nm while the latter are further coated by ~ 30 nm thick silica shells) and small Ag nanoparticles (60 nm dia.). This hierarchical optical field induced assembly is a starting point for photonically "building" artificial nanomaterials.
DOI

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