Peroxidation and photo-peroxidation of pantoprazole in aqueous solution using silver molybdate as catalyst

Daniela Gier Della Rocca; Henrique Fernandes Vieira Victoria; Camilla Daniela Moura Nickel; Gidiane Scaratti; Klaus Wilhelm Heinrich Krambrock; Agenor De Noni Junior; Vítor Jorge Pais Vilar; Humberto Jorge José; Regina de Fátima Peralta Muniz Moreira

Use este identificador para citar o ir al link de este elemento: http://hdl.handle.net/1843/80416

Tipo:	Artigo de Periódico
Título:	Peroxidation and photo-peroxidation of pantoprazole in aqueous solution using silver molybdate as catalyst
Autor(es):	Daniela Gier Della Rocca Henrique Fernandes Vieira Victoria Camilla Daniela Moura Nickel Gidiane Scaratti Klaus Wilhelm Heinrich Krambrock Agenor De Noni Junior Vítor Jorge Pais Vilar Humberto Jorge José Regina de Fátima Peralta Muniz Moreira
Resumen:	In this study, silver molybdate was used as a catalyst in different oxidation processes to degrade pantoprazole (PAN) from aqueous suspension. The catalyst was synthesized using a controlled precipitation method and characterized by XRD, FTIR spectroscopy, BET analysis, Zeta potential, FEG-SEM/EDS, DRS and EPR. The α- and β-phases of Ag2MoO4 were identified as crystalline structure of the butterfly-shaped particles. The metastable α-phase could be completely converted into β-Ag2MoO4 by thermal treatment at 300 °C. The band gap energy of β-Ag2MoO4 (Eg = 3.25 eV) is slightly higher than for as-prepared catalyst (α-Ag2MoO4 + β-Ag2MoO4) (Eg = 3.09 eV), suggesting that as-prepared catalyst should be active under visible light. PAN is sensible to UV light irradiation, and the addition of H2O2 as electron acceptor enhanced the mineralization rate. In the catalytic UV-based reactions, high PAN oxidation efficiencies were obtained (>85%) but with low mineralization (32-64%). Catalytic peroxidation and photo-catalytic peroxidation under visible light showed the highest PAN oxidation efficiency, leading to its almost complete mineralization (>95%), even under dark conditions (98% in 120 min). Several degradation byproducts were identified and three mechanistic routes of PAN decomposition were proposed. The identified byproducts are less toxic than the parent compound. EPR coupled with the spin trapping method identified •OH radicals as the main ROS species in both photocatalytic and catalytic peroxidation reactions. Ag2MoO4 showed to be a promising catalyst to promote the decomposition of hydrogen peroxide into ROS.
Asunto:	Fotocatálise Oxidação
Idioma:	eng
País:	Brasil
Editor:	Universidade Federal de Minas Gerais
Sigla da Institución:	UFMG
Departamento:	ICX - DEPARTAMENTO DE FÍSICA
Tipo de acceso:	Acesso Aberto
Identificador DOI:	https://doi.org/10.1016/j.chemosphere.2020.127671
URI:	http://hdl.handle.net/1843/80416
Fecha del documento:	2021
metadata.dc.url.externa:	https://www.sciencedirect.com/science/article/pii/S004565352031866X?via%3Dihub
metadata.dc.relation.ispartof:	Chemosphere
Aparece en las colecciones:	Artigo de Periódico

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