Synthesis of magnetically recoverable rod like Bi2O3/y-Fe2O3 composite with high photocatalytic performance under visible light irradiation

Name: Ruethaithip Wisedsri

Organization : Kasetsart University Chalermphrakiat Sakonnakhon Province Campus. Faculty of Science and Engineering

Email : ruethaithip.w@ku.th

Name: Saiphon Chanpaka

Organization : Kasetsart University Chalermphrakiat Sakonnakhon Province Campus. Faculty of Science and Engineering

Name: Theanchai Panphojan

Organization : Kasetsart University Chalermphrakiat Sakonnakhon Province Campus. Faculty of Science and Engineering

Name: Thanonchat Imsombat

Organization : Rajabhat Mahasarakham University. Faculty of Science and Technology

keyword: Photocatalytic

LCSH: Bismuth oxide

; Visible light irradiation

Abstract: Photocatalysis technique is considered to be the most effective method to resolve the water pollution problems due to its low operation cost and environmentally benign. To meet the requirement of future and environmental and energy application, a magnetically photocatalyst was studied. The magnetically recoverable Bi2O3/y-Fe2O3 composite photocatalyst was synthesized by a hydrothermal route at low temperature. The as-prepared catalyst was characterized by scanning electron microscope (SEM), x-ray diffraction (XRD), and transmission electron microscope (TEM). The photocatalytic properties of the composites were studied with the photo-degradation of Rhodamine B (RhB). The effects of dye concentration, catalyst loading and recycling ability were investigated. The Rod-like Bi2O3/y-Fe2O3 composite has been prepared by hydrothermal method at 80 oC for 24h. The spherical particles of y-Fe2O3 around 15 nm were embedded in rod-like Bi2O3. The photocatalyst can be recovered and recycled by applying an external magnetic field. The rod-like Bi2O3/y-Fe2O3 composite was demonstrated for the photocatalytic degradation of Rhodamine B under visible light irradiation with degradation up to 81% in 5 h. The dye degradation percent was still higher than 70% after the usage of three cycles.

King Mongkut's University of Technology North Bangkok. Central Library

Address: BANGKOK

Email: library@kmutnb.ac.th

Created: 2017

Modified: 2562-08-13

Issued: 2019-08-13

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BibliograpyCitation : In Chemical Society of Thailand under the Patronage of Her Royal Hghness Princess Chulabhorn Mahidol and King Mongkut's University of Technology North Bangkok Faculty of Applied Science. Pure and Applied Chemistry International Conference (PACCON 2017) (pp.692-697). Bangkok : Chemical Society of Thailand under the Patronage of Her Royal Hghness Princess Chulabhorn Mahidol

eng

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