Title of article
Highly photocatalyst efficient in LEDs/solar active and reusable: Sm–ZnO–Ag nanoparticles for methylene blue degradation
Author/Authors
Jerlin Jose, Yesuvadimai Department of Chemistry - BWDA Arts and Science College, India , Manjunathan, Munisamy Department of Chemistry - BWDA Arts and Science College, India , Joseph Selvaraj, Savariraj Department of Chemistry - St. Josephs College, India
Pages
13
From page
259
To page
271
Abstract
The precipitation–decomposition method was
used to prepare the photocatalyst (Sm–ZnO–Ag). Synthesized
catalyst was characterized by X-ray diffraction, field
emission scanning electron microscope images, and optical
spectroscopy. The activity of photocatalyst of Sm–ZnO–
Ag was checked for the photodegradation of thiazin-type
methylene blue (MB) dye in aqueous solution using light
emitting diodes/solar illumination. Sm–ZnO–Ag is found
to be excellent competent than Ag–ZnO, Sm–ZnO and
ZnO nanoparticles. The absorbance of ZnO was shifted
into the visible region by the dopants (Ag and Sm). The
influences of operational parameters such as initial pH,
dose of photocatalyst and dye concentration on photomineralization
of MB have been analyzed. Sunlight
(16 min) gives excellent results in photocatalytic degradation
compared to LED (80 min). The microbial zones of
Sm–ZnO–Ag (Nps) showed free radical generation. The
Sm–ZnO–Ag catalyst is stable and it’s reusable. A degradation
mechanism is proposed for the photodegradation of
MB under LED/solar light.
Keywords
Photodegradation , Nanoparticles , Sunlight , LEDs , MB
Journal title
Astroparticle Physics
Serial Year
2017
Record number
2436299
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