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Anchoring Tri(8-Quinolinolato)Iron Onto Sba-15 for Partial Oxidation of Benzyl Alcohol Using Water as the Solvent

kinds of ligands. Appl. Organometal. Chem. 26 (5), 252-257. DOI: 10.1002/aoc.2861. 25. Rimoldi, M., Fodor, D., van Bokhoven, J.A. & Mezzetti, A. (2013). A stable 16-electron iridium(iii) hydride complex grafted on SBA-15: a single-site catalyst for alkene hydrogenation. Chem. Commun. 49 (96), 11314-6. DOI: 10.1039/c3cc47296e. 26. Canilho, N., Jacoby, J., Pasc, A., Carteret, C., Dupire, F., Stebe, M.J. & Blin, J.L. (2013). Isocyanate-mediated covalent immobilization of Mucor miehei lipase onto SBA-15 for transesterification reaction

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Epoxidation of allyl-glycidyl ether with hydrogen peroxide over Ti-SBA-15 catalyst and in methanol medium

.09.001. 17. Wróblewska, A., Makuch, E. & Mojta, E. (2016). Advanced Catalytic Materials. Photocatalysis and Other Current Trends. Norena, L.E. & Wang, J.A (Eds.) Studies on Obtaining Diglycidyl Ether from Allyl-Glycidyl Ether over the Mesoporous Ti-SBA-15 Catalyst (pp. 123–140). Rijeka, Croatia: InTech. DOI: 10.5772/61881. 18. Gu, X.P., Ikeda, I. & Okahara, M. (1987). Stereoselective formation of allyl ethers by reaction of epoxides with organic chlorides under liquid-solid phase-transfer catalysis. Bull. Chem. Soc. Jpn. 60, 667–672. DOI: 10.1246/bcsj.60

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Phenol and methylene blue photodegradation over Ti/SBA-15 materials under uv light

). Organically Modifi ed Titanium-Rich Ti-MCM-41, Effi cient Catalysts for Epoxidation Reactions. J. Catal. 189, 31-39. DOI: 10.1006/jcat.1999.2690. 13. Segura, Y., Cool, P., Van Der Voort, P., Mees, F., Meynen, V. & Vansant, E.F. (2004). TiOx-VOx mixed oxides on SBA-15 support prepared by the designed dispersion of acetylacetonate complexes: spectroscopic study of the reaction mechanisms. J. Phys. Chem. B 108, 3794-3800. DOI: 10.1021/jp036259w. 14. Zhao, D.Y., Huo, Q., Feng, J., Chmelka, B.F. & Stucky, G.D. (1998). Nonionic triblock and star

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Environmental friendly method of the epoxidation of limonene with hydrogen peroxide over the Ti-SBA-15 catalyst

. Wróblewska, A. (2014). The epoxidation of limonene over the TS-1 and Ti-SBA-15 catalysts. Molecules. 19, 19907-19922. DOI: 10.3390/molecules191219907. 24. Berube, F., Kleitz, F. & Kaliaguine, S. (2008). A comprehensive study of titanium-substituted SBA-15 mesoporous materials prepared by direct synthesis. J. Phys. Chem. 112(37),14403-14411. DOI: 10.1021/jp803853m. 25. Makuch, E. & Wróblewska, A. (2013). Preparation of titanium-silicate catalyst Ti-SBA-15. Chemik, 67,811-816. 26. Wróblewska, A. & Makuch, E. (2014

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The utilization of the mesoporous Ti-SBA-15 catalyst in the epoxidation of allyl alcohol to glycidol and diglycidyl ether in the water medium

.1515/1542-6580.2898. 7. Wu, P. & Tatsumi, T. (2003). Postsynthesis, characterization, and catalytic properties in alkene epoxidation of hydrothermally stable mesoporous Ti-SBA-15. J. Catal. 214, 317–326. DOI: 10.1021/cm010910v. 8. Wróblewska, A. & Milchert, E. (2009). Liquid phase epoxidation of allylic compounds with hydrogen peroxide at autogenic and atmospheric pressure over mesoporous Ti-MCM-48 catalyst. J. Adv. Oxid. Technol. 12(2), 170–177. 9. Wróblewska, A. & Makuch, E. (2012). The utilization of Ti-SBA-15 catalyst in the epoxidation of allylic alcohols. Reac

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Ordered mesoporous silicates as matrices for controlled release of drugs

, Improvement of dissolution rate of piroxicam by inclusion into MCM-41 mesoporous silicate, Eur. J. Pharm. Sci.   32 (2007) 216-222; DOI: 10.1016/j.ejps.2007.07.005. M. V. Speybroeck, V. Barillaro, T. Do Thi, R. Mellaerts, J. Martens, J. Van Humbeeck, J. Vermant, P. Annaert, G. Van den Mooter and P. Augustijns, Ordered mesoporous silica materials SBA-15: A broad spectrum formulation platform for poorly soluble drugs, J. Pharm. Sci.   98 (2008) 2648-2658; DOI: 10.1002/jps.21638. P. Kortesuo, M. Ahola, S. Karlsson, I

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Mesoporous Silica Functionalized by Nickel-Cyclam Molecules: Preparation and Resonance Raman Study

Number: 076004 (9pp). Katiyar A., Yadav S., Smirniotis G. P., Pinto N. G. (2006). Synthesis of ordered large pore SBA-15 spherical particles for adsorption of biomolecules, Journal of Chromatography, 1122 , 13-20. Trewyn B. G., Nieweg J. A., Zhao Y., Lin V. (2007). Biocompatible mesoporous silica nanoparticles with different morphologies for animal cell membrane penetration. Chemical Engineering Journal, 137 , 23-29. Slowing I. I., Trewyn B. G., Giri S., Lin V. S.-Y. (2007). Mesoporous silica nanoparticle based

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Epoxidation of natural limonene extracted from orange peels with hydrogen peroxide over Ti-MCM-41 catalyst

.12.107. 6. Corma, A., Iborra, S. & Velty, A. (2007). Chemical routes for the transformation of biomass into chemicals. Chem. Rev. 107, 2411–2502. DOI: 10.1021/cr050989d. 7. Wróblewska, A. (2014). The epoxidation of limonene over the TS-1 and Ti-SBA-15 catalysts. Molecules 19, 19907–19922. DOI: 10.3390/molecules191219907. 8. Wilborn, P.A., Chu, F. & Tang, Ch. (2013). Progress in renewable polymers from natural terpenes, terpenoids and rosin. Macromol. Rapid Comm. 34, 8–37. DOI: 10.1002/marc.201200513. 9. Kallrath, G. & Biegler, H. (1968). U

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Encapsulation of L-ascorbic acid via polycaprolactone-polyethylene glycol-casein bioblends

.F., Timpu, D. & Popovici, E. (2012). In vitro controlled release of antihypertensive drugs intercalated into unmodified SBA-15 and MgO modified SBA-15 matrices. Int. J. Pharmaceut . 436, 111–119. DOI: 10.1016/j.ijpharm.2012.06.036. 23. Moribe, K. Makishima, T., Higashi, K., Liu, N., Limwikrant, W., Ding, W., Masuda, M., Shimizu, T. & Yamamoto, K. (2014). Encapsulation of poorly water-soluble drugs into organic nanotubes for improving drug dissolution. Int. J. Pharmaceut . 469, 190–196. DOI: 10.1016/j.ijpharm.2014.04.005. 24. Jensen, D.M., Cun, D., Maltesen

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Montmorillonite as the catalyst in oxidation of limonene with hydrogen peroxide and in isomerization of limonene

TS-1 and Ti-SBA-15 catalysts. Molecules. 19, 19907–19922. DOI: 10.3390/molecules191219907. 26. Pinto, L.D., Dupont, J., de Souza, R.F., Bernardo-Gusmão, K. (2008). Catalytic asymmetric epoxidation of limonene using manganese Schiff-base complexes immobilized in ionic liquids. Catal. Comm. 9, 135–139. DOI: 10.1016/j.catcom.2007.05.025. 27. Bussi, J., López, A., Peña, F., Timbal, P., Paz, D., Lorenzo, D. & Dellacasa, E. (2003). Liquid phase oxidation of limonene catalyzed by palladium supported on hydrotalcites. Appl. Catal. A: General 253, 177–189. DOI

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