Scalable, green fabrication of single-crystal noble metal films and nanostructures for low-loss nanotechnology applications
Sasan V. Grayli, Xin Zhang, Finlay C. MacNab, Saeid Kamal, Gary W., Leach

TL;DR
This paper presents a scalable, eco-friendly wet chemical method for fabricating high-quality, single-crystal noble metal films and nanostructures, advancing low-loss nanotechnology applications.
Contribution
It introduces a novel green fabrication technique for monocrystalline noble metals, enabling high-quality nanostructures with improved optical and electrical properties.
Findings
Ultrasmooth, epitaxial single-crystal films achieved
Enhanced pattern transfer and feature quality
Reduced optical and resistive losses
Abstract
High quality metal thin films and nanostructures are critical building blocks for next generation nanotechnologies. They comprise low-loss circuit elements in nanodevices, provide new catalytic pathways for water splitting and reduction technologies, and enable the confinement of spatially extended electromagnetic waves to be harnessed for application in information processing, energy harvesting, engineered metamaterials, and new technologies that will operate in the quantum plasmonics limit. However, the controlled fabrication of high-definition single-crystal subwavelength metal nanostructures remains a significant hurdle, due to the tendency for polycrystalline metal growth using conventional physical vapor deposition methods, and the challenges associated with placing solution-grown nanocrystals in desired orientations and locations on a surface to fabricate functional…
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