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Enhanced photocatalytic reduction of 4‐nitrophenol over Ir/CeO 2 photocatalysts under UV irradiation
Author(s) -
Castañeda Claudia,
Alvarado Ignacio,
Martínez José J,
Brijaldo María H,
Passos Fabio Barboza,
Rojas Hugo
Publication year - 2019
Publication title -
journal of chemical technology and biotechnology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.64
H-Index - 117
eISSN - 1097-4660
pISSN - 0268-2575
DOI - 10.1002/jctb.6072
Subject(s) - photocatalysis , 4 nitrophenol , cerium , materials science , nuclear chemistry , irradiation , photochemistry , band gap , visible spectrum , catalysis , chemistry , nanotechnology , nanoparticle , organic chemistry , metallurgy , optoelectronics , nuclear physics , physics
BACKGROUND Photoreduction of 4‐nitrophenol (4‐NP) photocatalytically to 4‐aminophenol (4‐AP) is considered a promising treatment of this recalcitrant pollutant. 4‐aminophenol is widely applied as an intermediate in the pharmaceutical and agricultural industries. In this work, iridium/cerium dioxide (Ir/CeO 2 ) photocatalysts with different Ir contents (0.5, 1.0 and 2.0 wt%) were studied in the photoreduction of 4‐NP using Na 2 SO 3 as hole scavengers under UV irradiation. In order to identify their physicochemical properties, the materials were studied by several techniques and photoactivity was monitored by UV‐visible spectroscopy. RESULTS The characterization results provided evidence that the modification of CeO 2 by impregnation of Ir causes a decrease in CeO 2 textural properties and its band gap energy. The photocatalytic reduction of 4‐nitrophenol was enhanced by 26.1% using Ir/CeO 2 1.0 wt% in comparison with CeO 2 support. The phrase is related with the comparison between the photocatalytic behavior of Ir/CeO 2 1.0 wt% photocatalyst in regard the results evidenced with CeO 2 unmodified. An effect of the metal loading over photoactivity was observed and the optimal Ir content was 1.0 wt%. A reduction of 84% was obtained using 1.0 wt%Ir/CeO 2 , whereas for higher metal loading (2.0 wt%) 4‐NP reduction decreased by 72%. CONCLUSION The enhancement in the photocatalytic behavior of the Ir/CeO 2 series could be related to the presence of Ir δ+ and Ir 0 species evidenced by X‐ray photoelectron spectroscopy (XPS), thus, Ir δ+ species could favor the adsorption of the pollutant and Ir 0 particles could act as trap of the photogenerated electrons that are responsible for reduction of the nitrocompound. The decrease in photoactivity when 2.0 wt% Ir/CeO 2 was used as photocatalyst could be associated with partial blockage of the surface active sites by increasing amounts of metal. © 2019 Society of Chemical Industry