The research presented in the following thesis focuses on the precise functionalization of interfaces leveraging non-covalent interaction with applications spanning from enhancing the toughness of carbon fiber reinforced materials to recognition of specific molecular targets like anionic surfactants or histones methylated residues.
Engineering supramolecular surfaces: multiple H-bonding for toughness enhancement in carbon fiber composites and functionalized receptors for multivalent nanoparticles / Milani, M.. - (2026 Jan 27).
Engineering supramolecular surfaces: multiple H-bonding for toughness enhancement in carbon fiber composites and functionalized receptors for multivalent nanoparticles
MILANI, MONICA
2026-01-27
Abstract
The research presented in the following thesis focuses on the precise functionalization of interfaces leveraging non-covalent interaction with applications spanning from enhancing the toughness of carbon fiber reinforced materials to recognition of specific molecular targets like anionic surfactants or histones methylated residues.File in questo prodotto:
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Tesi_MilaniMonica.pdf
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