Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/49938
Title: TiO2, surface modified TiO2 and graphene oxide-TiO2 photocatalysts for degradation of water pollutants under near-UV/Vis and visible light
Authors: Pastrana-Martínez, Luisa M.
Morales-Torres, Sergio
Kontos, Athanassios G.
Moustakas, Nikolaos G.
Faria, Joaquim L.
Doña-Rodríguez, José M. 
Falaras, Polycarpos
Silva, Adrián M.T.
UNESCO Clasification: 221022 Fotoquímica
221001 Catálisis
Keywords: Heterogeneous photocatalysis
Modified titania
Graphene oxide-TiO2
Scavengers for holes and radicals
Diphenhydramine, et al
Issue Date: 2013
Publisher: 1385-8947
Project: Water Detoxification Using Innovative vi-Nanocatalysts 
Journal: Chemical Engineering Journal 
Conference: 7th European Meeting on Solar Chemistry and Photocatalysis - Environmental Applications (SPEA) 
Abstract: In this work the photocatalytic activity between a TiO2 catalyst synthesized by a modified sol–gel method (ECT), TiO2 nanoparticles surface modified with organic shell layer (m-TiO2) and a graphene oxide-TiO2 composite (GOT-3.3) was compared. Diphenhydramine (DP) pharmaceutical and methyl orange (MO) azo-dye were used as model water pollutants under both near-UV/Vis and visible light irradiation. The TiO2 photocatalyst from Evonik Degussa Corporation (P25) was used as reference material and the pseudo-first order rate constants (k) and total organic carbon (TOC) removal were determined. Under near-UV/Vis irradiation, the results show that ECT and GOT-3.3 are highly active photocatalysts for the degradation of DP (k = 64.5 × 10−3 and 62 × 10−3 min−1, respectively) and mineralization (TOC removal of 55% and 50%, respectively) being the overall performance comparable to that obtained with P25 (k = 56 × 10−3 min−1 and 48% of TOC removal). The composite GOT-3.3 presents a markedly higher activity for conversion of the MO dye (k = 126 × 10−3, 52 × 10−3, 49 × 10−3, 18.1 × 10−3 min−1 for GOT-3.3, P25, ECT and m-TiO2, respectively) as well as for its mineralization, with TOC removals tailoring the same order. Under visible light illumination, P25 is practically inactive and GOT-3.3 (for DP) and m-TiO2 (for MO) are the photocatalysts with better properties than P25, or even than ECT. Scavenger agents were used as a diagnostic tool for the analysis of the photocatalytic mechanism, being defined three ratios to understand the relevance of each step in this mechanism. Regarding DP, it was concluded that direct oxidation by photogenerated holes is more important for the modified TiO2 materials (m-TiO2 and GOT-3.3) than for ECT and P25 which present higher availability to generate radical species from photoinduced holes. A photoreduction mechanism on the surface of the photocatalysts was observed for MO, the addition of EDTA (electron donor) greatly enhancing the rate of MO photoreduction.
URI: http://hdl.handle.net/10553/49938
ISSN: 1385-8947
DOI: 10.1016/j.cej.2012.11.040
Source: Chemical Engineering Journal [ISSN 1385-8947], v. 224, p. 17-23
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