CN
- Control of Separation and Diameter of Ag Nanorods through Self-organized Seeds.
Control of Separation and Diameter of Ag Nanorods through Self-organized Seeds.
Scientific reports (2015-11-21)
Paul R Elliott, Stephen P Stagon, Hanchen Huang
PMID26585104
ABSTRACT
This paper proposes a mechanism of controlling the diameter and separation of metallic nanorods from physical vapor deposition through self-organized seeds and experimentally demonstrates the feasibility using Ag as the prototype metal, In as the seed, and Si the substrate. Being non-wetting on Si substrates, deposited In atoms self-organize into islands. Subsequently deposited Ag atoms attach to In islands, rather than to Si substrates, due to preferential bonding and geometrical shadowing. The experimental results show that self-organized In seeds of 5 nm nominal thickness give rise to the best separation and the smallest diameter of Ag nanorods.
MATERIALS
Product Number
Brand
Product Description
Sigma-Aldrich
Methanol solution, NMR reference standard, 4% in methanol-d4 (99.8 atom % D), NMR tube size 3 mm × 8 in.
Ruthenium, Ruthenium, microfoil, disks, 10mm, thinness 0.1μm, specific density 122μg/cm2, permanent mylar 3.5μm support, 99.9%
Ruthenium, Ruthenium, pellets, 2.5g, max. size 10mm, 99.9%
Ruthenium, Ruthenium, pellets, 5g, max. size 10mm, 99.9%
Ruthenium, Ruthenium, rod, 12.7mm, diameter 12.7mm, 99.9%
Ruthenium, Ruthenium, bar, 50mm x 2mm x 2mm, 99.9%
Ruthenium, Ruthenium, foil, 10x10mm, thickness 1.0mm, 99.9%
Ruthenium, Ruthenium, foil, 25x25mm, thickness 1.0mm, 99.9%
Ruthenium, Ruthenium, foil, 6x6mm, thickness 1.0mm, 99.9%
Ruthenium, Ruthenium, bar, 25mm x 2mm x 2mm, 99.9%
Ruthenium, Ruthenium, microfoil, disks, 10mm, thinness 0.025μm, specific density 30.5μg/cm2, permanent mylar 3.5μm support, 99.9%