Synergistically controlled nano-templated growth of tunable gold bud-to-blossom nanostructures: a pragmatic growth mechanism
Author:
Affiliation:
1. Nanophotonics Group
2. Chemical Sciences Division
3. Saha Institute of Nuclear Physics
4. Kolkata-700064, India
5. Surface Physics & Material Science Division
Abstract
Nano-templating method with a pragmatic nanocrystal growth mechanism that explains the production of variable-size, intrinsically monodispersed, tunable bud-to-blossom plasmonic (580–1300 nm) gold nano-flowers.
Publisher
Royal Society of Chemistry (RSC)
Subject
Materials Chemistry,General Chemistry
Link
http://pubs.rsc.org/en/content/articlepdf/2014/TC/C4TC00160E
Reference54 articles.
1. Size matters: why nanomaterials are different
2. Etching Colloidal Gold Nanocrystals with Hyperbranched and Multivalent Polymers: A New Route to Fluorescent and Water-Soluble Atomic Clusters
3. Investigation of the Growth Process of Gold Nanoplates Formed by Thermal Aqueous Solution Approach and the Synthesis of Ultra-Small Gold Nanoplates
4. Synthesis of Rod-Shaped Gold Nanorattles with Improved Plasmon Sensitivity and Catalytic Activity
5. Faceting of Nanocrystals during Chemical Transformation: From Solid Silver Spheres to Hollow Gold Octahedra
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