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Mendeleev Communications, 2019, Volume 29, Issue 5, Pages 547–549
DOI: https://doi.org/10.1016/j.mencom.2019.09.023 (Mi mendc1586) 		 
This article is cited in 23 scientific papers (total in 23 papers)

Communications

CO-induced segregation as an efficient tool to control the surface composition and catalytic performance of PdAg3/Al2O3 catalyst

N. S. Smirnovaa, P. V. Markova, G. N. Baevaa, A. V. Rassolova, I. S. Mashkovskya, A. V. Bukhtiyarovb, I. P. Prosvirinb, M. A. Panafidinb, Ya. V. Zubavichusb, V. I. Bukhtiyarovb, A. Yu. Stakheeva

a N.D. Zelinsky Institute of Organic Chemistry, Russian Academy of Sciences, Moscow, Russian Federation
b G.K. Boreskov Institute of Catalysis, Siberian Branch of the Russian Academy of Sciences, Novosibirsk, Russian Federation
Full-text PDF (502 kB) Citations (23)
DOI: https://doi.org/10.1016/j.mencom.2019.09.023
Abstract: A treatment of PdAg3/Al2O3 catalyst with CO at 250°C enhanced its activity towards the selective C2H2 hydrogenation without any noticeable losses of C2H4 selectivity. The CO-DRIFTS and XPS data acquired in situ have indicated that the observed effect arises from Pd surface segregation induced by the CO adsorption and partial transformation of isolated surface Pd1 active sites into Pd2 dimers. The catalytic performance of PdAg3/Al2O3 was found to be similar or even better as compared to the best reported catalysts.
Document Type: Article
Language: English
Supplementary materials:
Supplementary_data_1.pdf (118.0 Kb)


Citation: N. S. Smirnova, P. V. Markov, G. N. Baeva, A. V. Rassolov, I. S. Mashkovsky, A. V. Bukhtiyarov, I. P. Prosvirin, M. A. Panafidin, Ya. V. Zubavichus, V. I. Bukhtiyarov, A. Yu. Stakheev, “CO-induced segregation as an efficient tool to control the surface composition and catalytic performance of PdAg3/Al2O3 catalyst”, Mendeleev Commun., 29:5 (2019), 547–549
Linking options:
  • https://www.mathnet.ru/eng/mendc1586
  • https://www.mathnet.ru/eng/mendc/v29/i5/p547
    • This publication is cited in the following 23 articles:
    1. A. V. Bukhtiyarov, M. A. Panafidin, I. P. Prosvirin, Ya. V. Zubavichus, A. Yu. Stakheev, I. S. Mashkovsky, V. I. Bukhtiyarov, “Adsorption-induced segregation as a way to control the catalytic performance of palladium-based bimetallic catalysts”, RUSS CHEM REV, 94:1 (2025), RCR5148  crossref
    2. Feifei Hu, Meng Wang, Xin Zhou, Shisong Yang, Xuan Chen, Chaochuang Yin, Qian Lin, Hongyan Pan, Zheng Chen, “Core-shell structured composite high-efficiency catalyst Co@Pd/TiO2 with a compressed-strain Pd shell for the direct synthesis of H2O2”, Chemical Engineering Journal, 500 (2024), 156991  crossref
    3. Lyudmila Okhlopkova, Igor Prosvirin, Sergey Khairulin, “Semihydrogenation of 2-methyl-3-butyn-2-ol over PdxAg1-x/TiO2 films in microcapillary reactor: Effect of active component composition”, Inorganic Chemistry Communications, 2024, 113781  crossref
    4. E. G. Chepaykin, G. N. Menchikova, S. I. Pomogaylo, O. P. Tkachenko, L. M. Kustov, “Partial Oxidation of Propane: Single-Site Pd/γ-Al2O3 Catalysts”, Neftehimiâ, 63:2 (2023), 262  crossref
    5. E. G. Chepaikin, G. N. Menchikova, S. I. Pomogailo, O. P. Tkachenko, L. M. Kustov, “Partial Oxidation of Propane: Single-Site Pd/γ-Al2O3 Catalysts”, Pet. Chem., 63:4 (2023), 463  crossref
    6. Dmitry Melnikov, Marina Reshetina, Andrei Novikov, Kirill Cherednichenko, Anna Stavitskaya, Valentine Stytsenko, Vladimir Vinokurov, Wei Huang, Aleksandr Glotov, “Strategies for palladium nanoparticles formation on halloysite nanotubes and their performance in acetylene semi‑hydrogenation”, Applied Clay Science, 232 (2023), 106763  crossref
    7. Andrey V. Bukhtiyarov, Maxim A. Panafidin, Igor P. Prosvirin, Nadezhda S. Smirnova, Pavel V. Markov, Galina N. Baeva, Igor S. Mashkovsky, Galina O. Bragina, Zakhar S. Vinokurov, Yan V. Zubavichus, Valerii I. Bukhtiyarov, Alexander Yu. Stakheev, “Reversible Transformations of Palladium–Indium Intermetallic Nanoparticles upon Repetitive Redox Treatments in H2/O2”, Crystals, 13:9 (2023), 1356  crossref
    8. A.V. Bukhtiyarov, M.A. Panafidin, I.P. Prosvirin, N.S. Smirnova, P.V. Markov, G.N. Baeva, I.S. Mashkovsky, G.O. Bragina, C. Rameshan, E.Yu. Gerasimov, Y.V. Zubavichus, V.I. Bukhtiyarov, A.Yu. Stakheev, “Deliberate control of the structure-specific active sites in PdIn bimetallic catalysts using adsorbate induced segregation effects”, Applied Surface Science, 608 (2023), 155086  crossref
    9. I. S. Mashkovsky, P. V. Markov, A. V. Rassolov, E. D. Patil, A. Yu. Stakheev, “Progress in single-atom methodology in modern catalysis”, Russian Chem. Reviews, 92:8 (2023), RCR5087  mathnet  mathnet  crossref  isi  scopus
    10. Minghao Hua, Xuelei Tian, Shuo Li, Xiaohang Lin, “PdAg/Ag(111) Surface Alloys: A Highly Efficient Catalyst of Oxygen Reduction Reaction”, Nanomaterials, 12:11 (2022), 1802  crossref
    11. Huiran Zhou, Bingxin Li, Huigen Fu, Xiaohua Zhao, Mingming Zhang, Xiaobing Wang, Yang Liu, Zongxian Yang, Xiangdong Lou, “Sulfur-Doped g-C3N4-Supported Ni Species with a Wide Temperature Window for Acetylene Semihydrogenation”, ACS Sustainable Chem. Eng., 10:15 (2022), 4849  crossref
    12. A.Yu. Fedorov, A.V. Bukhtiyarov, M.A. Panafidin, I.P. Prosvirin, I.A. Chetyrin, N.S. Smirnova, P.V. Markov, Y.V. Zubavichus, A.Yu. Stakheev, V.I. Bukhtiyarov, “The effect of CO treatment on the surface structure of bimetallic Pd-Au/HOPG and Pd-In/HOPG nanoparticles: A comparative study”, Nano-Structures & Nano-Objects, 29 (2022), 100830  crossref
    13. A.V. Bukhtiyarov, M.A. Panafidin, I.P. Prosvirin, I.S. Mashkovsky, P.V. Markov, A.V. Rassolov, N.S. Smirnova, G.N. Baeva, C. Rameshan, R. Rameshan, Y.V. Zubavichus, V.I. Bukhtiyarov, A.Yu. Stakheev, “Boosting the activity of PdAg2/Al2O3 supported catalysts towards the selective acetylene hydrogenation by means of CO-induced segregation: A combined NAP XPS and mass-spectrometry study”, Applied Surface Science, 604 (2022), 154497  crossref
    14. M.A. Panafidin, A.V. Bukhtiyarov, I.P. Prosvirin, I.A. Chetyrin, A. Yu Klyushin, A. Knop-Gericke, N.S. Smirnova, P.V. Markov, I.S. Mashkovsky, Y.V. Zubavichus, A.Yu. Stakheev, V.I. Bukhtiyarov, “A mild post-synthesis oxidative treatment of Pd-In/HOPG bimetallic catalysts as a tool of their surface structure fine tuning”, Applied Surface Science, 571 (2022), 151350  crossref
    15. Lin Chen, Xiao-Tian Li, Sicong Ma, Yi-Fan Hu, Cheng Shang, Zhi-Pan Liu, “Highly Selective Low-Temperature Acetylene Semihydrogenation Guided by Multiscale Machine Learning”, ACS Catal., 12:24 (2022), 14872  crossref
    16. Valentine D. Stytsenko, Dmitry P. Melnikov, Aleksandr P. Glotov, Vladimir A. Vinokurov, “Kinetic regularities and mechanism of acetylene hydrogenation over PdMn catalyst”, Molecular Catalysis, 533 (2022), 112750  crossref
    17. Aliya N. Mukhamed'yarova, Svetlana R. Egorova, Oksana V. Nosova, Alexander A. Lamberov, “Influence of hydrothermal conditions on the phase transformations of amorphous alumina”, Mendeleev Communications, 31:3 (2021), 385  crossref
    18. Weixiao Sun, Peng Lin, Qinghu Tang, Fangli Jing, Qiue Cao, Wenhao Fang, “Sustainable synthesis of vanillin through base-free selective oxidation using synergistic AgPd nanoparticles loaded on ZrO2”, Catal. Sci. Technol., 11:22 (2021), 7268  crossref
    19. Alexander V. Rassolov, Igor S. Mashkovsky, Galina O. Bragina, Galina N. Baeva, Pavel V. Markov, Nadezhda S. Smirnova, Johan Wärnå, Alexander Yu. Stakheev, Dmitry Yu. Murzin, “Kinetics of liquid-phase diphenylacetylene hydrogenation on “single-atom alloy” Pd-Ag catalyst: Experimental study and kinetic analysis”, Molecular Catalysis, 506 (2021), 111550  crossref
    20. Mikhail Mamatkulov, Ilya Yudanov, Andrey Bukhtiyarov, Konstantin Neyman, “Pd Single-Atom Sites on the Surface of PdAu Nanoparticles: A DFT-Based Topological Search for Suitable Compositions”, Nanomaterials, 11:1 (2021), 122  crossref
    Citing articles in Google Scholar: Russian citations, English citations
    Related articles in Google Scholar: Russian articles, English articles
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