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Mendeleev Communications, 2001, Volume 11, Issue 5, Pages 186–188
DOI: https://doi.org/10.1070/MC2001v011n05ABEH001446 (Mi mendc4285) 		 
This article is cited in 16 scientific papers (total in 16 papers)

New evidence for the electronic nature of the strong metal-support interaction effect over a Pt/TiO2 hydrogenation catalyst

A. Yu. Stakheeva, Yu. M. Shulgab, N. A. Gaidaia, N. S. Teleginaa, O. P. Tkachenkoa, L. M. Kustova, Kh. M. Minacheva

a N.D. Zelinsky Institute of Organic Chemistry, Russian Academy of Sciences, Moscow, Russian Federation
b Institute of Problems of Chemical Physics, Russian Academy of Sciences, Chernogolovka, Moscow Region, Russian Federation
Full-text PDF (169 kB) Citations (16)
DOI: https://doi.org/10.1070/MC2001v011n05ABEH001446
Abstract: Analysis of the Pt 4f line asymmetry evidenced that the suppression of the hydrogenation activity of Pt/TiO2 in the SMSI state is caused by a decrease in the d-electron density at the Fermi level of platinum particles, while the net charge of the metal particles remains unaltered.
Document Type: Article
Language: English


Citation: A. Yu. Stakheev, Yu. M. Shulga, N. A. Gaidai, N. S. Telegina, O. P. Tkachenko, L. M. Kustov, Kh. M. Minachev, “New evidence for the electronic nature of the strong metal-support interaction effect over a Pt/TiO2 hydrogenation catalyst”, Mendeleev Commun., 11:5 (2001), 186–188
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  • https://www.mathnet.ru/eng/mendc/v11/i5/p186
    • This publication is cited in the following 16 articles:
    1. A. A. Belmesov, L. V. Shmygleva, N. V. Romanova, M. Z. Galin, A. V. Levchenko, “Electrocatalysts Based on Platinized Titanium Dioxide Doped with Ruthenium for Hydrogen and Carbon-Monoxide Potentiometric Sensors”, Russ J Electrochem, 60:9 (2024), 699  crossref
    2. Min-Ju Choi, Hyoju Park, Mark H. Engelhard, Dongsheng Li, Peter V. Sushko, Yingge Du, “Reevaluation of XPS Pt 4f peak fitting: Ti 3s plasmon peak interference and Pt metallic peak asymmetry in Pt@TiO2 system”, Journal of Vacuum Science & Technology A, 42:6 (2024)  crossref
    3. Atul Tiwari, Matteo Monai, Ksenia Matveevskii, Sergey N. Yakunin, Laurens D. B. Mandemaker, Martina Tsvetanova, Melissa J. Goodwin, Marcelo D. Ackermann, Florian Meirer, Igor A. Makhotkin, “X-ray standing wave characterization of the strong metal–support interaction in Co/TiO x model catalysts”, J Appl Crystallogr, 57:2 (2024), 481  crossref
    4. Chun-Jern Pan, Meng-Che Tsai, Wei-Nien Su, John Rick, Nibret Gebeyehu Akalework, Abiye Kebede Agegnehu, Shou-Yi Cheng, Bing-Joe Hwang, “Tuning/exploiting Strong Metal-Support Interaction (SMSI) in Heterogeneous Catalysis”, Journal of the Taiwan Institute of Chemical Engineers, 74 (2017), 154  crossref
    5. Evgeny I. Vovk, Alexander V. Kalinkin, Mikhail Yu. Smirnov, Igor O. Klembovskii, Valerii I. Bukhtiyarov, “XPS Study of Stability and Reactivity of Oxidized Pt Nanoparticles Supported on TiO2”, J. Phys. Chem. C, 121:32 (2017), 17297  crossref
    6. M. Yu. Smirnov, A. V. Kalinkin, E. I. Vovk, V. I. Bukhtiyarov, “Analysis of the oxidation state of platinum particles in supported catalysts by double differentiation of XPS lines”, J Struct Chem, 57:6 (2016), 1127  crossref
    7. L. M. Kustov, “Catalytic properties of supported gold nanoparticles in organic syntheses”, Russ Chem Bull, 62:4 (2013), 869  crossref
    8. I. V. Chistyakov, V. P. Ananikov, “Dependence of catalytic activity of metal-containing particles on degree of ordering rather than on size and shape. Pd and Ni-catalyzed carbon–heteroatom bond formation”, Mendeleev Commun., 23:6 (2013), 337–339  mathnet  crossref
    9. Wolfgang Grünert, Characterization of Solid Materials and Heterogeneous Catalysts, 2012, 537  crossref
    10. Amalio Fernandez-Pacheco, Studies of Nanoconstrictions, Nanowires and Fe₃O₄ Thin Films, 2011, 99  crossref
    11. V. P. Ananikov, I. P. Beletskaya, “Using nanosized, homogeneous, and heterogeneous catalytic systems in organic synthesis: changing the structure of active center in chemical reactions in solution”, Nanotechnol Russia, 5:1-2 (2010), 1  crossref
    12. E. M. Balashov, A. K. Gatin, M. V. Grishin, F. I. Dalidchik, N. N. Kolchenko, B. R. Shub, “The influence of strong electric fields on the growth of platinum oxide nanoparticles and their interaction with molecular hydrogen”, Russ. J. Phys. Chem. B, 4:2 (2010), 340  crossref
    13. S.D. Wolter, B. Brown, C.B. Parker, B.R. Stoner, J.T. Glass, “The effect of gold on platinum oxidation in homogeneous Au–Pt electrocatalysts”, Applied Surface Science, 257:5 (2010), 1431  crossref
    14. A. Fernández-Pacheco, J. M. De Teresa, R. Córdoba, M. R. Ibarra, “Metal-insulator transition in Pt-C nanowires grown by focused-ion-beam-induced deposition”, Phys. Rev. B, 79:17 (2009)  crossref
    15. S.A. Gurevich, V.M. Kozhevin, I.N. Yassievich, D.A. Yavsin, T.N. Rostovshchikova, V.V. Smirnov, Thin Films and Nanostructures, 34, Physico-Chemical Phenomena in Thin Films and at Solid Surfaces, 2007, 725  crossref
    16. H. Iddir, M.M. Disko, S. Ogut, N.D. Browning, “Atomic scale characterization of the Pt/TiO2 interface”, Micron, 36:3 (2005), 233  crossref
    Citing articles in Google Scholar: Russian citations, English citations
    Related articles in Google Scholar: Russian articles, English articles
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