Various [60]fullerene derivatives were covalently anchored via a Si-C bond to hydrogen-terminated Si(100) following wet-chemistry recipes. The applied reactions require a two-step approach consisting of a pre-modification of the Si(100) surface with an organic monolayer bearing a terminal functionality that undergoes a bond-forming reaction with a [60]fullerene synthon. The resulting Si-C bound hybrids were characterized by a combination of XPS, AFM, contact angle, and electrochemical analysis. The hybrid surfaces containing [60rsqb;fullerene-ferrocene fragments are exceptionally robust towards repeated reduction-oxidation cycles. Moreover, several surface-confined redox couples were observed in CH3CN solution. The surface coverage was measured to be ca. 2.5×10-11molcm-2. © 2009 American Institute of Physics.
Fullerenes covalently anchored on Si(100): An experimental study / Cattaruzza, F.; Llanes-Pallas, A.; Marrani, A. G.; Dalchiele, E. A.; Decker, F.; Zanoni, R.; Prato, M.; Bonifazi, D.. - In: AIP CONFERENCE PROCEEDINGS. - ISSN 0094-243X. - 1148:(2009), pp. 725-728. ( 6th International Conference on Computational Methods in Sciences and Engineering 2008, ICCMSE 2008 Hersonissos, Crete, grc 2008) [10.1063/1.3225421].
Fullerenes covalently anchored on Si(100): An experimental study
Cattaruzza F.;Prato M.;Bonifazi D.
2009-01-01
Abstract
Various [60]fullerene derivatives were covalently anchored via a Si-C bond to hydrogen-terminated Si(100) following wet-chemistry recipes. The applied reactions require a two-step approach consisting of a pre-modification of the Si(100) surface with an organic monolayer bearing a terminal functionality that undergoes a bond-forming reaction with a [60]fullerene synthon. The resulting Si-C bound hybrids were characterized by a combination of XPS, AFM, contact angle, and electrochemical analysis. The hybrid surfaces containing [60rsqb;fullerene-ferrocene fragments are exceptionally robust towards repeated reduction-oxidation cycles. Moreover, several surface-confined redox couples were observed in CH3CN solution. The surface coverage was measured to be ca. 2.5×10-11molcm-2. © 2009 American Institute of Physics.Pubblicazioni consigliate
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