Synthesis Of Titanium SBA-16 mesoporous Material Using Ultrasonic treatment
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Abstract
Mesoporous molecular sieves in the hexagonal phase (SBA16) are synthesized from rice husk ash (R.H.A.) solutions using Pluronic F127 as template and R.H.A. as silica source. It is found that R.H.A. effectively transformed into mesoporous materials depending upon the hydrothermal conditions. It is also found that a high concentration of Na+ ions is not critical in the formation of SBA16 when prepared under controlled pH of gel, calcinations temperature and calcinations duration conditions. We provide direct evidence of SBA16. Our results resembles that coal combustion byproducts can be utilized for producing mesoporous molecular sieves even if containing significant amounts of impurities. The highest crystalline and well defined phase purity SBA16 is obtained without hydrothermal treatment in short interval of time. X-ray diffraction(XRD) shows that the highly ordered esostructure was maintained even at the high loading of titanium up to5.5 (bulk molar ratio SiO2/TiO2). The synthesis of mesoporousTiO2-containing SBA-16 composite with a cubicIm3m structure will open new applications for catalysts.
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Shete S.B., U.D. Joshi (2014); Synthesis Of Titanium SBA-16 mesoporous Material Using Ultrasonic treatment, Int. J. of Adv. Res., 2 (09), 0, ISSN 2320-5407.
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