1. Design and fabrication of a 3D-structured gold film with nanopores for local electric field enhancement in the pore.
- Author
-
Grant-Jacob JA, Oo SZ, Carpignano F, Boden SA, Brocklesby WS, Charlton MD, and Melvin T
- Subjects
- Electricity, Fluorescence, Hydroxides chemistry, Models, Theoretical, Nanopores, Potassium Compounds chemistry, Silicon chemistry, Spectrum Analysis, Raman methods, Gold chemistry
- Abstract
Three-dimensionally structured gold membrane films with nanopores of defined, periodic geometries are designed and fabricated to provide the spatially localised enhancement of electric fields by manipulation of the plasmons inside nanopores. Square nanopores of different size and orientation relative to the pyramid are considered for films in aqueous and air environments, which allow for control of the position of electric fields within the structure. Designs suitable for use with 780 nm light were created. Here, periodic pyramidal cavities produced by potassium hydroxide etching to the {111} planes of (100) silicon substrates are used as templates for creating a periodic, pyramidal structured, free-standing thin gold film. Consistent with the findings from the theoretical studies, a nano-sized hole of 50 nm square was milled through the gold film at a specific location in the cavity to provide electric field control which can subsequently used for enhancement of fluorescence or Raman scattering of molecules in the nanopore.
- Published
- 2016
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