The focus of my PhD project consisted in the development of self-organized, large area, industrially scalable physical methods based on wrinkling instabilities to nanopattern and functionalize tunable plasmonic polymeric polydimetilsyloxane (PDMS) and solid-state glass surfaces, both transparent, non-toxic and cheap materials, for applications of significant technological interest in photonics and bio-sensing.

Large-Area Plasmonics on Self-Organized Wrinkled Nanopatterns

BARELLI, MATTEO
2020

Abstract

The focus of my PhD project consisted in the development of self-organized, large area, industrially scalable physical methods based on wrinkling instabilities to nanopattern and functionalize tunable plasmonic polymeric polydimetilsyloxane (PDMS) and solid-state glass surfaces, both transparent, non-toxic and cheap materials, for applications of significant technological interest in photonics and bio-sensing.
20-mar-2020
Inglese
BUATIER DE MONGEOT, FRANCESCO
SACCONE, ADRIANA
RIVA, RENATA
Università degli studi di Genova
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14242/69000
Il codice NBN di questa tesi è URN:NBN:IT:UNIGE-69000