Mastering nanostructured materials through H-bonding recognitions at interfaces

Mastering nanostructured materials through H-bonding recognitions at interfaces

The controlled engineering of functional architectures composed of π-systems with unusual opto-electronic properties is currently being investigated intensively from both fundamental research and technological application viewpoints. In particular, the exploitation of the supramolecular approach for...

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Veröffentlicht in:Pure and applied chemistry 2010-04, Vol.82 (4), p.917-929
Hauptverfasser: Mohnani, Stefan, Llanes-Pallas, Anna, Bonifazi, Davide
Format: Artikel
Sprache:eng
Schlagworte:
Computer storage devices
Hydrogen bonding
interfaces
liquid–liquid
liquid–solid
Mastering
Memory devices
nanopatterned surfaces
Nanostructured materials
Optoelectronics
Organic chemistry
Self-assembly
STM
supramolecular chemistry
UHV–solid
vesicles
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Zusammenfassung:The controlled engineering of functional architectures composed of π-systems with unusual opto-electronic properties is currently being investigated intensively from both fundamental research and technological application viewpoints. In particular, the exploitation of the supramolecular approach for the facile construction of multidimensional architectures, featuring cavities capable of hosting functional molecules, could be used in several applications, such as nanomedicine, molecular-based memory storage devices, and sensors. This paper highlights our recent strategies to use hydrogen-bonding interactions to prepare nanostructured functional architectures via the self-assembly of organic molecular modules studied at different interfaces.
ISSN:0033-4545
1365-3075
DOI:10.1351/PAC-CON-10-01-06