Metal Dispersion and Alloy Homogeneity in Highly Dispersed Pt-Au/Al2O3 Catalysts

• Autorzy: Yurkiv V. , Legawiec-Jarzyna M. , Juszczyk W. , Kowalczyk Z. , Karpiński Z.
• Języki publikacji: EN

Abstrakty

EN

Although hydrogen chemisorption performed in a pulse-flow system allows for a reliable determination of platinum dispersion in Pt/Al2O3 catalysts, it fails in the case when platinum is alloyed with gold. Much weaker hydrogen adsorption on mixed Pt-Au sites is not detected by this method which measures only instantaneous irreversible chemisorption. On the other hand, the static chemisorption method givestrustworthy values of metal dispersion. So, a combination of these two methods (pulse-flow and static) probes effectively both the metal dispersion as well as the d gree of alloying in supported Pt-Au catalysts. Obtained characterization data for the series of Pt-Au/Al2O3 catalysts prepared by incipient wetness impregnaion suggest that in this case Pt and Au remain intimately mixed in the form of Pt–Au bimetallic particles.

Słowa kluczowe

EN

Pt/Al2O3 catalyst; Pt-Au/Al2O3 catalysts; pulse chemisorption of H2; static chemisorption of CO

• Wydawca: Polskie Towarzystwo Chemiczne
• Czasopismo: Polish Journal of Chemistry
• Rocznik: 2008
• Tom: Vol. 82, nr 9
• Strony: 1711--1711
• Opis fizyczny: –1716, Bibliogr. 20 poz., rys.

Twórcy

autor

Yurkiv V.

autor

Legawiec-Jarzyna M.

autor

Juszczyk W.

autor

Kowalczyk Z.

autor

Karpiński Z.

• Institute of Physical Chemistry of PAS, ul. Kasprzaka 44/52, 01-224 Warszawa, Poland Fax: (+48 22) 343 3333,

Bibliografia

• l. Rylander P.N., "Catalytic Hydrogenation over Platinum Metals." Academic Press, New York, 1967; Rylander P.N., "Catalytic Hydrogenation in Organie Synthesis." Academic Press, London, 1979.
• 2. Ponec V. and Bond G.C., "Catalysis by Metals and Alloys", Elsevier, Amsterdam, 1995, Ch. 7.
• 3. Barbier J., Marecot R, Del Angel G., Bosch R, Boitiaux J.R, Didillon B., Dominguez J.M., Schifter L. and Espinoza G., Appl. Catal. A, 116, 179 (1994).
• 4. EspinosaG., Del Angel G., Barbier J., Bosch R, Lara V. and AcostaD., J. Mol. Catal. A, 164,253 (2000).
• 5. Del Angel R, Dominguez J.M., Del Angel G., Montoya J.A., Lamy-Pitara E., Labruquere S. and Barbier J., Langmuir, 16, 7210 (2000).
• 6. Del Angel R, Dominguez J.M., Del Angel G., Montoya J.A., Capilla J., Lamy-Pitara E. and Barbier J., Topics Catal., 18, 183 (2002).
• 7. Chandler B.D., Schabel A.B., Blanford C.F. and Pignolet L.H., J. Catal., 187, 367 (1999).
• 8. Mihut C., Descorme C., Duprez D. and Amiridis M.D., J. Catal., 212, 125 (2002).
• 9. Anderson J.R., Foger K. and Breakspere R.J., J. Catal, 57,458 (1979).
• 10. Bus E. and van Bokhoven J.A., Phys. Chem. Chem. Phys., 9, 2894 (2007).
• 11. Freel J., J. Catal., 25, 139 (1972).
• 12. Uchijima T., Herrmann J.M., Inoue Y., Burwell R.L., Jr., Butt J.B. and Cohen J.B., J. Catal., 50, 464 (1977).
• 13. Juszczyk W. and Karpiński Z., J. Catal., 117, 519 (1989).
• 14. Schwarz J.A., Polizzotti R.S. and Burton J.J., J. Vac. Sci. Technol., 14, 457 (1976).
• 15. Tsong T.T., Ng Y.S. and McLane S.B., J. Chem. Phys., 73, 1464 (1980).
• 16. Hórnström S.E., Johansson L.I. and Flodström A., Appl Surf. Sci., 26, 27 (1986).
• 17. Rachmady W. and Vannice M.A., J. Catal., 192, 322 (2000).
• 18. Bartok M., Sarkany J. and Sitkei A., J. Catal., 72, 236 (1981).
• 19. Balakrishnan K., Sachdev A. and Schwank J., J. Catal., 121, 441 (1990).
• 20. Chandler B.D., Schabel A.B. and Pignolet L.H., J. Phys. Chem. B, 105, 105 (2001).