Zeolite/dye hybrid composites: Organization of photoactive azobenzene molecules inside AlPO4-5
Articolo
Data di Pubblicazione:
2018
Citazione:
Zeolite/dye hybrid composites: Organization of photoactive azobenzene molecules inside AlPO4-5 / Polisi, M., Arletti, R., Morandi, S., Fabbiani, M., Martra, G., Quartieri, S., Pastero, L., Vezzalini, G., Arletti, R.. - In: MICROPOROUS AND MESOPOROUS MATERIALS. - ISSN 1387-1811. - 268 (2018):(2018), pp. 25-30. [10.1016/j.micromeso.2018.03.038]
Abstract:
Organic/inorganic hybrid materials - like zeolites +dyes - are currently used in strategic areas, from sustainable
energy technologies to biomedical sciences. In these systems, photoactive molecules are organized in one-dimensional
nanostructures inside the zeolite channels. In this paper we present the results of a study aimed to the
synthesis and the structural and spectroscopic characterization of azobenzene/AlPO4-5 hybrid composites,
performed by a multi-technique approach based on material synthesis, thermal gravimetric analysis, synchrotron
X-ray powder diffraction, UV-VIS and IR spectroscopies. The results indicate that azobenzene molecules are
hosted in the 12-membered ring channel of AFI framework and the maximum loading is 0.9 molecules per unit
cell. The combination of spectroscopic and diffractometric methods point out that, being AlPO4-5 starting material
affected by Brönsted acidity, a consistent portion of the azobenzene molecules is protonated and interact
with the framework oxygen atoms.
energy technologies to biomedical sciences. In these systems, photoactive molecules are organized in one-dimensional
nanostructures inside the zeolite channels. In this paper we present the results of a study aimed to the
synthesis and the structural and spectroscopic characterization of azobenzene/AlPO4-5 hybrid composites,
performed by a multi-technique approach based on material synthesis, thermal gravimetric analysis, synchrotron
X-ray powder diffraction, UV-VIS and IR spectroscopies. The results indicate that azobenzene molecules are
hosted in the 12-membered ring channel of AFI framework and the maximum loading is 0.9 molecules per unit
cell. The combination of spectroscopic and diffractometric methods point out that, being AlPO4-5 starting material
affected by Brönsted acidity, a consistent portion of the azobenzene molecules is protonated and interact
with the framework oxygen atoms.
Tipologia CRIS:
Articolo su rivista
Keywords:
Zeolite-dye hybrid, Structural characterization, X ray diffraction, UV-VIS and IR spectroscopies, Brönsted acidity
Elenco autori:
Polisi, Michelangelo; Arletti, Rossella; Morandi, Sara; Fabbiani, Marco; Martra, Gianmario; Quartieri, Simona; Pastero, Linda; Vezzalini, Giovanna; Arletti, Rossella
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