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Desalination and Water Treatment Volume 57, 2016 - Issue 11
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Articles

Thermal/plasma treatment effect on photocatalytic degradation of aqueous solution of methylene blue using Au-doped Fe/TiO2 photocatalyst

Asif MahmoodDepartment of Chemical Engineering, College of Engineering, King Saud University, Riyadh, Saudi Arabia, Tel. +966 11 46 79966; Fax: +996 11 46 78770, Tel. +966 11 46 76855Correspondence[email protected]
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Shahid Mahmood RamayDepartment of Physics and Astronomy, Colleges of Science, King Saud University, Riyadh, Saudi Arabia, Tel. +966 11 4678760Correspondence[email protected]
,
Yousef S. Al-ZaghayerDepartment of Chemical Engineering, College of Engineering, King Saud University, Riyadh, Saudi Arabia, Tel. +966 11 46 79966; Fax: +996 11 46 78770, Tel. +966 11 46 76855;Supervisor of Industrial Catalysts Research Chair, King Saud University, Riyadh11421, Saudi ArabiaCorrespondence[email protected]
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Shahid AtiqCentre of Excellence in Solid State Physics, University of the Punjab, New Campus, Lahore54590, Pakistan, Tel. +92 300 7110532Correspondence[email protected]
&
Shahid Hussain AnsariCentre for Energy Systems (CES), National University of Sciences and Technology (NUST), Islamabad, Pakistan, Tel. +92 51 9085 5116Correspondence[email protected]
Pages 5183-5192 | Received 13 Aug 2014, Accepted 09 Dec 2014, Published online: 14 Jan 2015
 
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Abstract

The effect of thermal/plasma treatment on the photocatalytic degradation of methylene blue (MB) using Au-doped Fe/TiO2 photocatalyst was investigated. Iron (Fe)-doped TiO2 samples were prepared by solgel auto-combustion technique. Later, gold nano-particles (AuNPs) were deposited on the as-prepared support (Fe/TiO2) using conventional deposition–precipitation method with NaOH (DP NaOH), and the resulting catalysts were subsequently modified with thermal (at 450°C under vacuum) and plasma (at an ambient temperature under Argon atmosphere for 20 min) treatments. To evaluate particle structure, size distribution, and composition, diverse analytical techniques such as X-ray diffractometer, BET surface area, SEM, EDX, and TEM were used. The photocatalytic activity was evaluated by assessing the degradation of the MB in water under ultraviolet (UV) irradiations while the parameters affecting photocatalytic process such as the catalyst crystallinity, light absorption efficiency, the dosage of catalyst, dopant, and MB concentrations were well controlled. Thermal-/plasma-treated samples showed significant enhancement in the photocatalytic activity compared to untreated samples by changing the morphology, increasing the number of AuNPs, improving the Au-doped Fe/TiO2 interface, and decreasing the band-gap energies thus tuned Au-doped Fe/TiO2 catalyst to higher efficiency. The AuNPs deposited on the Fe/TiO2 showed good thermal stability as well. Based on the obtained results, it can be expected that the modified catalyst may have potential applications in various advanced technologies such as water treatment, sustainable energy, clean environment, and several others.

Acknowledgements

The Authors extend their appreciation to the Deanship of Scientific Research at King Saud University for funding the work through the research group project No. RGP-VPP-311.

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