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Photocatalytic activity of Acid-Catalyst-modified Sol-Gel processed nanocrystalline Titania: On dual-role of active surface-sites

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dc.contributor.author Manu Jose
dc.contributor.author Harsha, N
dc.contributor.author Jatish Kumar
dc.contributor.author Shukla, S
dc.date.accessioned 2016-07-12T10:05:11Z
dc.date.available 2016-07-12T10:05:11Z
dc.date.issued 2015
dc.identifier.citation Science of Advanced Materials 7(4):729-745; Apr 2015 en_US
dc.identifier.uri http://hdl.handle.net/123456789/2352
dc.description.abstract Stabilizing anatase-phase in pure and doped nanocrystalline titania (TiO2) with enhanced photocatalytic activity has been a challenging task. In this report, we synthesize nanocrystalline anatase-TiO2 via the conventional and acid-catalyst-modified sol–gel processes. Three different types of acid-catalysts, HNO3, CH3COOH, and H3PO4, have been utilized for this purpose. The effect of acid-catalyst on the morphological, chemical, and structural evolution of samples has been analyzed using the different analytical techniques. The photocatalytic activity has been measured under the ultraviolet (UV)-radiation exposure by varying the acid-catalyst used, initial dye-concentration, and initial concentration of H3PO4. The maximum photocatalytic activity has been exhibited by the sample processed using the H3PO4 as an acid-catalyst which has been attributed to the ability of PO3− 4 anions to bind strongly with the surface of anatase-TiO2 and their dual-role in the dark and under the UV-radiation exposure leading to the largest amount of dye-adsorption on the surface and highest dye-degradation kinetics en_US
dc.language.iso en en_US
dc.publisher American Scientific Publishers en_US
dc.subject Phosphate-Anions; Adsorption; Hydroxyl-Radical; Dye; Methylene Blue en_US
dc.title Photocatalytic activity of Acid-Catalyst-modified Sol-Gel processed nanocrystalline Titania: On dual-role of active surface-sites en_US
dc.type Article en_US


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