Gabriele C Messina
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Explore the profile of Gabriele C Messina including associated specialties, affiliations and a list of published articles.
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20
Citations
300
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Recent Articles
1.
Messina G, Zambrana-Puyalto X, Maccaferri N, Garoli D, De Angelis F
Nanoscale
. 2020 Apr;
12(15):8574-8581.
PMID: 32248206
In this work, we present a plasmonic platform capable of trapping nano-objects in two different spatial configurations. The switch between the two trapping states, localized on the tip and on...
2.
Flatae A, Tantussi F, Messina G, De Angelis F, Agio M
J Phys Chem Lett
. 2019 May;
10(11):2874-2878.
PMID: 31084012
Colloidal quantum dots have emerged as a versatile photoluminescent and optoelectronic material. Limitations like fluorescence intermittency, nonradiative Auger recombination, and surface traps are commonly addressed by growing a wide-band-gap shell....
3.
Zilio P, Dipalo M, Tantussi F, Messina G, De Angelis F
Light Sci Appl
. 2018 Sep;
6(6):e17002.
PMID: 30167264
We present a theoretical and experimental study of a plasmonic nanoelectrode architecture that is able to inject bunches of hot electrons into an aqueous environment. In this approach, electrons are...
4.
Tantussi F, Messina G, Capozza R, Dipalo M, Lovato L, De Angelis F
ACS Nano
. 2018 Mar;
12(5):4116-4122.
PMID: 29589906
The possibility of investigating small amounts of molecules, moieties, or nano-objects dispersed in solution constitutes a central step for various application areas in which high sensitivity is necessary. Here, we...
5.
Jin X, Cerea A, Messina G, Rovere A, Piccoli R, de Donato F, et al.
Nat Commun
. 2018 Feb;
9(1):763.
PMID: 29472554
Phonons (quanta of collective vibrations) are a major source of energy dissipation and drive some of the most relevant properties of materials. In nanotechnology, phonons severely affect light emission and...
6.
Oliverio M, Perotto S, Messina G, Lovato L, De Angelis F
ACS Appl Mater Interfaces
. 2017 Aug;
9(35):29394-29411.
PMID: 28796479
In an ideal plasmonic surface sensor, the bioactive area, where analytes are recognized by specific biomolecules, is surrounded by an area that is generally composed of a different material. The...
7.
Dipalo M, Amin H, Lovato L, Moia F, Caprettini V, Messina G, et al.
Nano Lett
. 2017 May;
17(6):3932-3939.
PMID: 28534411
Three-dimensional vertical micro- and nanostructures can enhance the signal quality of multielectrode arrays and promise to become the prime methodology for the investigation of large networks of electrogenic cells. So...
8.
Shalabaeva V, Lovato L, La Rocca R, Messina G, Dipalo M, Miele E, et al.
PLoS One
. 2017 Apr;
12(4):e0175581.
PMID: 28419111
Metabolomics is an emerging field of cell biology that aims at the comprehensive identification of metabolite levels in biological fluids or cells in a specific functional state. Currently, the major...
9.
Haghighian N, Bisio F, Miseikis V, Messina G, De Angelis F, Coletti C, et al.
Phys Chem Chem Phys
. 2016 Oct;
18(39):27493-27499.
PMID: 27711546
We investigated the plasmonic response of a 2-dimensional ordered array of closely spaced (few-nm apart) Au nanoparticles covered by a large-area single-layer graphene sheet. The array consisted of coherently aligned...
10.
Malerba M, Alabastri A, Miele E, Zilio P, Patrini M, Bajoni D, et al.
Sci Rep
. 2015 Nov;
5:16436.
PMID: 26552340
The exploitation of surface plasmon polaritons has been mostly limited to the visible and near infrared range, due to the low frequency limit for coherent plasmon excitation and the reduction...