The surface of Zn–Al-chloride LDH microcrystals (LDH ¼ Layered Double Hydroxides) was activated by grafting a redox active catechol bearing bis-phosphonate obtained by dopamine derivatization. The obtained phosphonate uniformly coats the LDH crystals surface and the catechol groups are exposed. The redox activity of the catechol was employed for the quick and easy synthesis of Gold NPs, which are supported onto the LDH microcrystal surface. The synthetic procedures and the complete characterization of the hybrid system are reported.
Redox Properties of LDH Microcrystals Coated with a Catechol-bearing Phosphonate derived from Dopamine
NOCCHETTI, Morena;PRESCIUTTI, FEDERICA;COSTANTINO, FERDINANDO
2014
Abstract
The surface of Zn–Al-chloride LDH microcrystals (LDH ¼ Layered Double Hydroxides) was activated by grafting a redox active catechol bearing bis-phosphonate obtained by dopamine derivatization. The obtained phosphonate uniformly coats the LDH crystals surface and the catechol groups are exposed. The redox activity of the catechol was employed for the quick and easy synthesis of Gold NPs, which are supported onto the LDH microcrystal surface. The synthetic procedures and the complete characterization of the hybrid system are reported.File in questo prodotto:
Non ci sono file associati a questo prodotto.
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
