Graphene oxide (GO) exfoliated sheets were used as two dimensional platforms to covalently tether on their surface thousands of optically active quaterthiophene molecules (T4), using an innovative microwave-assisted silanization reaction. This method allowed to perform GO functionalization in one-step, under mild conditions in a few tens of minutes rather than days. The hybrid GOT4 could be processed in either H2O or apolar organic solvents and deposited as single sheets, microplatelets or macroscopic membranes. Absorption/emission spectroscopy reveals that GOT4 combines limited T4- T4 interactions with strong T4-GO ones. These findings, combined with the ‘user-friendly’ engineering approach presented here, pave the way towards the bottom-up fabrication of new GO-based tailored materials for electronics, sensors and biological applications.
Facile covalent functionalization of graphene oxide using microwaves: bottom-up development of functional graphitic materials / Melucci M; Treossi E; Ortolani L; Giambastiani G; Morandi V; Klar P; Casiraghi C; Samorì P; Palermo V. - In: JOURNAL OF MATERIALS CHEMISTRY. - ISSN 0959-9428. - STAMPA. - 20:(2010), pp. 9052-9060. [10.1039/c0jm01242d]
Facile covalent functionalization of graphene oxide using microwaves: bottom-up development of functional graphitic materials
Giambastiani G;
2010
Abstract
Graphene oxide (GO) exfoliated sheets were used as two dimensional platforms to covalently tether on their surface thousands of optically active quaterthiophene molecules (T4), using an innovative microwave-assisted silanization reaction. This method allowed to perform GO functionalization in one-step, under mild conditions in a few tens of minutes rather than days. The hybrid GOT4 could be processed in either H2O or apolar organic solvents and deposited as single sheets, microplatelets or macroscopic membranes. Absorption/emission spectroscopy reveals that GOT4 combines limited T4- T4 interactions with strong T4-GO ones. These findings, combined with the ‘user-friendly’ engineering approach presented here, pave the way towards the bottom-up fabrication of new GO-based tailored materials for electronics, sensors and biological applications.
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