T.A.R.A.N.TO research project (PON, ARS01_00637) aims to develop technologies suitable to generate renewable energy and the remediation of the polluted environmental compartments, thus favouring circular economy and decarbonisation practices. The proposed technologies intend to promote the transformation of wastes in renewable energy sources. ICMATE role is focused on the fabrication of supported photocatalysts based on TiO2, both as thin films (anatase, MOCVD coatings [2]) on stainless steel micrometric nets and over-grafted modified TiO2 nano-micro-powder (in anatase-rutile form [2]), Fig.1. This approach makes the whole support photo-active, thanks to the net MOCVD functionalisation and takes advantage from to the synergic action of the grafted powder, joined to a simplified catalyst management (easiness in placement-recovering).
T.A.R.A.N.T.O. project: supported TiO2 MOCVD thin films and doped TiO2 powders for photocatalytic water remediation
F. Visentin;
2019
Abstract
T.A.R.A.N.TO research project (PON, ARS01_00637) aims to develop technologies suitable to generate renewable energy and the remediation of the polluted environmental compartments, thus favouring circular economy and decarbonisation practices. The proposed technologies intend to promote the transformation of wastes in renewable energy sources. ICMATE role is focused on the fabrication of supported photocatalysts based on TiO2, both as thin films (anatase, MOCVD coatings [2]) on stainless steel micrometric nets and over-grafted modified TiO2 nano-micro-powder (in anatase-rutile form [2]), Fig.1. This approach makes the whole support photo-active, thanks to the net MOCVD functionalisation and takes advantage from to the synergic action of the grafted powder, joined to a simplified catalyst management (easiness in placement-recovering).Pubblicazioni consigliate
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