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Communication Dans Un Congrès Année : 2016

Colloidal Gold Nanostructures for Plasmonics

Résumé

Gold nanoparticles (Au-NPs) of high crystalline quality can now be readily synthesized in large quantities thanks to significant advances in colloidal chemistry over the past decade. Assembly of such NPs leads to the appearance of new properties, still relatively poorly explored, and is therefore particularly promising for production of cost-effective devices. Our research activities concentrate on the synthesis and assembly of gold NPs and aims at providing appropriate materials for researchers working in the various fields of plasmonics (1,2,3). Over the past years, we have been developed an expertise in the synthesis of NPs with tunable sizes and shapes, such as spheres, rods, octahedra, cubes, triangles and also micro-particles. Some of them are very promising and produced only in very few laboratories worl-wide, especially in Asia. For example, thick triangles are of particular interest for ultrasensi-tive sensing and can assemble in the edge-to-edge fashion or through face to face interactions (fig.). Microplatelets (hexagonal or triangular) are very attractive due to their large atomically flat facets and can form ordered 1D-columnar aggregates. In the literature, 3D-arrays of NPs are currently related to SERS applications. Here, we report the spontaneous self-assembly of gold NPs by simply evaporating concentrated solutions on non-patterned sub-strates. The degree of reproducibility of this method, the maximum size of the perfectly organized area and the key parameters related to a controlled-deposition are presented. We are looking for collaborations to study the properties of these unusual assemblies.

Domaines

Matériaux
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Dates et versions

cea-02327837 , version 1 (23-10-2019)

Identifiants

  • HAL Id : cea-02327837 , version 1

Citer

Sylvie Marguet, Mohammad Khaywah, Jérôme Caron, Aurélie Habert. Colloidal Gold Nanostructures for Plasmonics. International Conference on Energy, Materials and Photonics (EMP-16), Jul 2016, Troyes, France. ⟨cea-02327837⟩
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