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Related Experiment Video

Updated: May 3, 2026

Utilization of Plasmonic and Photonic Crystal Nanostructures for Enhanced Micro- and Nanoparticle Manipulation
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Solution-processable complex plasmonic quasicrystals.

Tianrui Zhai, Yuanhai Lin, Hongmei Liu

    Optics Express
    |February 12, 2014
    PubMed
    Summary
    This summary is machine-generated.

    Large-area quasicrystal plasmonic structures are fabricated using a simple solution-processable method. Annealing controls morphology and enhances light-matter interactions for advanced nanophotonics.

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    Area of Science:

    • Materials Science
    • Nanotechnology
    • Optics

    Background:

    • Plasmonic nanostructures offer unique optical properties.
    • Quasicrystals exhibit complex, non-periodic symmetries.
    • Integrating quasicrystals into plasmonic devices is challenging.

    Purpose of the Study:

    • To develop a scalable method for fabricating large-area plasmonic photonic structures with quasicrystalline elements.
    • To investigate the effect of annealing on the morphology and optical properties of these structures.
    • To understand the coupling mechanisms between waveguide modes and particle plasmons.

    Main Methods:

    • Fabrication of quasicrystal templates using multi-beam interference lithography.
    • Spin-coating of gold nanoparticle colloid onto the template.
    • Annealing of the composite structure to control morphology and enhance plasmonic coupling.
    • Spectroscopic characterization to analyze optical properties.

    Main Results:

    • A solution-processable method for large-area quasicrystal-based plasmonic structures was successfully developed.
    • Annealing temperature was found to significantly influence sample morphology and spectroscopic characteristics.
    • Strengthened coupling between waveguide modes and particle plasmons was observed with increasing annealing temperature.
    • Multi-mode coupling was observed after the removal of mode degeneration.

    Conclusions:

    • The developed method provides greater control over plasmonic nanostructure morphology and optical properties.
    • Understanding the observed coupling mechanisms is crucial for designing advanced plasmonic devices.
    • This work offers insights into the design strategies for complex plasmonic nanostructures incorporating quasicrystals.