Zastosowanie i synteza materiałów zeolitowych

• Autorzy: Sadek R. , Chałupka K. , Dźwigaj S.
• Języki publikacji: PL

Słowa kluczowe

PL

zeolity; synteza zeolitów

EN

zeolites; zeolite synthesis

• Wydawca: Politechnika Łódzka, Wydział Chemiczny
• Czasopismo: Eliksir
• Rocznik: 2015
• Tom: nr 2
• Strony: 36--39
• Opis fizyczny: Bibliogr. 37 poz., 1 il. kolor., rys.

Twórcy

autor

Sadek R.

• Instytut Chemii Ogólnej i Ekologicznej, Wydział Chemiczny, Politechnika Łódzka

autor

Chałupka K.

• Instytut Chemii Ogólnej i Ekologicznej, Wydział Chemiczny, Politechnika Łódzka

autor

Dźwigaj S.

• Laboratoire de Reactivite de Surface, University of Pierre and Marie Curie, CNRS

Bibliografia

• [1] Granda Valdés M., Pérez-Cordoves A.I., Díaz-García M.E., 2006, Zeolites and zeolite-based materials in analytical chemistry, TrAC Trends in Analytical Chemistry, 25, 1, 24-30.
• [2] Niwa M., Katada N., Okumura K., 2010, Introduction to Zeolite Science and Catalysis, Characterization and Design of zeolite Catalysts, Chapter 1, 1-8.
• [3] Bhatia S., 1989, Zeolite Composition And Structure, Zeolite Catalysts: Principles and Applications, Chapter 2, 7-19.
• [4] Payra P., 2003, Dutta P.K., Zeolites: A Primer, Handbook of Zeolite Science and Technology, Chapter 1, 1-19.
• [5] Pelmenschikov A.G., Paukshtis E.A., Edisherashvili M.O., Zhidomirov G.M., 1992, On the Loewenstein rule and mechanism of zeolite dealumination, J. Phys. Chem., 96, 17, 7051-7055.
• [6] Tomašević-Čanović M., 2005, Purification of natural zeolite- -clinoptilolite for medical application-Extraction of lead, J. Serb. Chem. Soc., 70, 11, 1335-1345.
• [7] Misaelides P., 2011, Application of natural zeolites in environmental remediation: A short review, Microporous and Mesoporous Materials, 144, 1-3, 15-18.
• [8] Byrappa K., Yoshimura M., 2001, Hydrothermal Synthesis and Growth of Zeolites, Handbook of Hydrothermal Technology, Chapter 6, 315-415.
• [9] Feng S., Li G., 2010, Hydrothermal and Solvothermal Synthese, Modern Inorganic Synthetic Chemistry, Chapter 4, 63-96.
• [10] Cundy C., Cox P., 2005, The hydrothermal synthesis of zeolites: precursors, intermediates and reaction mechanism, Microporous and Mesoporous Materials, 82, 1-2, 1-78.
• [11] pd.chem.ucl.ac.uk/pdnn/mod2/hydro.htm
• [12] Kešelj D., Lazić D., Škudrić B., Penavin- Škudrić J., Perušić M., 2015, The possibility of hydrothermal synthesis of NaY zeolite using different mineral acids, International Journal of Latest Research in Science and Technology, 4, , 37-41.
• [13] Li Y., Yang W., 2008, Microwave synthesis of zeolite membranes: A review, Journal of Membrane Science, 316, 1-2, 3-17.
• [14] Slangen P.M., Jansen J.C., van Bekkum H., 1997, The effect of ageing on the microwave synthesis of zeolite NaA, Microporous Materials, 9, 5-6, 259-265.
• [15] Huang A., Caro J., 2011, Application of Microwave Heating on the Facile Synthesis of Porous Molecular Sieve Membranes, Advances in Induction and Microwave Heating of Mineral and Organic Materials, Chapter 28, 641-672.
• [16] Panzarella B., Tompsett G.A., Ynqvesson K.S., Conner W.C., 2007, Microwave synthesis of zeolites. 2. Effect of vessel size, precursor volume, and irradiation method, J. Phys Chem B., 111, 44, 12657-12667.
• [17] Schmidt I., Madsen C., Jacobsen C.J.H., 2000, Confined Space Synthesis. A Novel Route to Nanosized Zeolites, 39, 2279-2283.
• [18] Madsen C., Jacobsen C.J.H., 1999, Nanosized zeolite crystals - convenient control of crystal size distribution by confined space synthesis, Chem. Commun., 673-674.
• [19] Jacobsen C.J.H., Madsen C., Houzvicka J., Schmidt I., Carlsson A., 2000, Mesoporous Zeolite Single Crystals, J. Am. Chem. Soc. 122, 7116-7117.
• [20] Chauhan Y.P., Talib M., 2012, A novel and green approach of synthesis and characterization of nano - adsorbents (zeolites) from coal fly ash: a review, Sci. Revs. Chem. Commun., 2, 1, 12-19.
• [21] Park M., Choi C.L., Lim W.T., Kim M.C., Choi J., Heo N.H., 2000, Molten - salt method for the synthesis of zeolitic materials: II. Characterization of zeolitic materials. 37, 1-2, 91-98.
• [22] Matsukata M., Nishiyama N., Ueyama K., 1996, Crystallization of FER and MFI zeolites by a vapor - phase transport method, Microporous Materials, 7, 2-3, 109-117.
• [23] Thoma S.G., Nenoff T.M., 2000, Vapor phase transport synthesis of zeolites from sol - gel precursors, Microporous and Mesoporous Materials, 41, 1-3, 295-305.
• [24] Liu X., Li Y., Chen B., Wang Y., 2009, Cleaner process for synthesis of zeolite MCM - 22 by vapor - phase transport method, Asia-Pac. J. Chem. Eng., 4, 607-611.
• [25] Kühl G.H., 1999, Modification of zeolites, Catalysis and Zeolites. Fundamentals and Applications, Chapter 3, 81-197.
• [26] Jones A., Hitchman M., 2008, Overview of Chemical Vapor Deposition, Chemical Vapor Deposition: Precursors, Processes and Applications, Chapter 1, 1-37.
• [27] Liu F., Xie L., Shi X., He H., 2015, Emerging Applications of Environmentally Friendly Zeolites In the Selective Catalytic Reduction of Nitrogen Oxides, Zeolites in Sustainble Chemistry. Synthesis, Characterization and Catalutic Applications, Chapter 12, 393-432.
• [28] Homs N., de la Piscina P.R., 2009, Carbonyl Compounds as Metallic Precursors of Tailored Supported Catalysts, Modern Surface Organometallic Chemistry, Chapter 8, 313-345.
• [29] Xu R., Pang W., Yu J., Huo Q., Chen J., 2007, Preparation, Secondary Synthesis, and Modification of Zeolites, Chemistry of Zeolites and Related Porous Materials: Synthesis and Structure, Chapter 6, 345-395.
• [30] Schoeufeldt N.J., 2008, Introduction, Synthesis and characterization of Gamma - alumina supported Manganese Oxides prepared by grafting and impregnation for application in heterogeneous catalysis, Chapter 1, 1-35.
• [31] Dzwigaj S., Stievano L., Wagner F. E., Che M., 2007, Effect of preparation and metal content on the introduction of Fe in BEA zeolite, studied by DR UV-vis, EPR and Mössbauer spectroscopy, Journal of Physics and Chemistry of Solids, 68, 188-1891.
• [32] Dzwigaj S., Massiani P., Davidson A., Che M., 2000, Role of silanol groups in the incorporation of V in β zeolite, Journal of Molecular Catalysis A: Chemical 155, 169-182.
• [33] Hajjar R., Millot Y., Man P.P., Che M., Dzwigaj S., 2008, J. Phys. Chem.. C, 112, 51, 20167-20175.
• [34] Beyer H.K., 2002, Dealumination Techniques for Zeolites, Molecular Sieves, 3, 204-255.
• [35] Chalupka K., Thomas C., Millot Y., Averseng F., Dzwigaj S., 2013, Mononuclear pseudo-tetrahedral V species of VSiBEA zeolite as the active sites of the selective oxidative dehydrogenation of propane, Journal of Catalysis 305, 46-55.
• [36] Trejda M., Ziolek M., Millot Y., Chalupka K., Che M., Dzwigaj S., 2011, Methanol oxidation on VSiBEA zeolites: Influence of V content on the catalytic properties, Journal of Catalysis 281, 169-176.
• [37] Chalupka K. A., Jozwiak W. K., Rynkowski J., Maniukiewicz W., Casale S, Dzwigaj S., 2014, Partial oxidation of methane on NixAlBEA and NixSiBEA zeolite catalysts: Remarkable effect of preparation procedure and Ni content, Applied Catalysis B: Environmental 146, 227- 236.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).