A method for practical area upscaling of nanopatterning for light-harvesting and photocatalytic applications is presented. Large area electron beam lithography is used to design patterns of simple-shape nanoparticles. After evaporation of gold, ion beam lithography is used to slice nanoparticles with grooves as narrow as 17 +/- 3 nm in width for the required spectral performance and light field enhancement. It is demonstrated by systematic numerical simulations that cutting grooves into the Si and SiO(2) substrates up to a similar to 10 nm depth augments the volume where the light-field enhancement occurs. The dominant component of the field enhancement in the groove is vertical bar E(z)vertical bar(2), perpendicular to the substrate's surface. The application potential of 3D-tailored nanoparticles in light harvesting applications is discussed.
3D-Tailored Gold Nanoparticles for Light Field Enhancement and Harvesting over Visible-IR Spectral Range / Rosa, Lorenzo; Sun, Kai; Mizeikis, Vygantas; Bauerdick, Sven; Peto, Lloyd; Juodkazis, Saulius. - In: JOURNAL OF PHYSICAL CHEMISTRY. C. - ISSN 1932-7447. - 115:13(2011), pp. 5251-5256. [10.1021/jp109099m]
3D-Tailored Gold Nanoparticles for Light Field Enhancement and Harvesting over Visible-IR Spectral Range
ROSA, Lorenzo;
2011
Abstract
A method for practical area upscaling of nanopatterning for light-harvesting and photocatalytic applications is presented. Large area electron beam lithography is used to design patterns of simple-shape nanoparticles. After evaporation of gold, ion beam lithography is used to slice nanoparticles with grooves as narrow as 17 +/- 3 nm in width for the required spectral performance and light field enhancement. It is demonstrated by systematic numerical simulations that cutting grooves into the Si and SiO(2) substrates up to a similar to 10 nm depth augments the volume where the light-field enhancement occurs. The dominant component of the field enhancement in the groove is vertical bar E(z)vertical bar(2), perpendicular to the substrate's surface. The application potential of 3D-tailored nanoparticles in light harvesting applications is discussed.Pubblicazioni consigliate
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