We studied a strategy for developing reproducible and stable 2D arrays of fractal micrometric gold nanoparticles arranged on silicon substrates. The combined use of electron beam lithography and molecular functionalization allowed us to finely control the shape of nanoparticle assemblies in designed areas. Atomic force microscopy measurements confirmed the regularity in spacing and size (i.e. area and layer number) of the obtained aggregates. Preliminary microRaman space resolved measurements were undertaken on a 100x100 ȝm2 2D array made up of 10 ȝm-spaced, 1 ȝm2 large clusters. The high surface enhanced Raman signal measured on the structure allowed us to point out a full correspondence in the periodical spacing both optically and topographically achieved. This may represent the basis to realize intriguing platforms for nano-optical investigation and towards an efficient high-sensitive multiplex sensing
Gold nanoparticle cluster arrays for advanced optical sensing: An AFM study / Brasili, Francesco; Mazzi, E.; DE ANGELIS, Lorenzo; Postorino, Paolo; Bordi, Federico; Fasolato, Claudia; Domenici, Fabio; Mura, Francesco. - In: PROCEEDINGS OF THE ... IEEE CONFERENCE ON NANOTECHNOLOGY. - ISSN 1944-9399. - (2015), pp. 1023-1028. (Intervento presentato al convegno 15th IEEE International Conference on Nanotechnology, IEEE-NANO 2015 tenutosi a ita nel 2015) [10.1109/NANO.2015.7388794].
Gold nanoparticle cluster arrays for advanced optical sensing: An AFM study
BRASILI, FRANCESCO;DE ANGELIS, LORENZO;POSTORINO, Paolo;BORDI, FEDERICO;FASOLATO, CLAUDIA;DOMENICI, FABIO;MURA, FRANCESCO
2015
Abstract
We studied a strategy for developing reproducible and stable 2D arrays of fractal micrometric gold nanoparticles arranged on silicon substrates. The combined use of electron beam lithography and molecular functionalization allowed us to finely control the shape of nanoparticle assemblies in designed areas. Atomic force microscopy measurements confirmed the regularity in spacing and size (i.e. area and layer number) of the obtained aggregates. Preliminary microRaman space resolved measurements were undertaken on a 100x100 ȝm2 2D array made up of 10 ȝm-spaced, 1 ȝm2 large clusters. The high surface enhanced Raman signal measured on the structure allowed us to point out a full correspondence in the periodical spacing both optically and topographically achieved. This may represent the basis to realize intriguing platforms for nano-optical investigation and towards an efficient high-sensitive multiplex sensing| File | Dimensione | Formato | |
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