Home / Publications / Intermetallic PdxIny/Al2O3 catalysts with isolated single-atom Pd sites for one-pot hydrogenation of diphenylacetylene into trans-stilbene

Intermetallic PdxIny/Al2O3 catalysts with isolated single-atom Pd sites for one-pot hydrogenation of diphenylacetylene into trans-stilbene

Nadezhda Sergeevna Smirnova 1
Nadezhda Sergeevna Smirnova
Galina Nikolaevna Baeva 1
Galina Nikolaevna Baeva
Andrey Valerievich Bukhtiyarov 2
Andrey Valerievich Bukhtiyarov
Aleksandr Yurevich Stakheev 1
Aleksandr Yurevich Stakheev
10.1016/j.mencom.2020.07.020
Published 2020-06-26
CommunicationVolume 30, Issue 4, 468-471
12
Share
Cite this
GOST
 | 
Cite this
GOST Copy
Markov P. V. et al. Intermetallic PdxIny/Al2O3 catalysts with isolated single-atom Pd sites for one-pot hydrogenation of diphenylacetylene into trans-stilbene // Mendeleev Communications. 2020. Vol. 30. No. 4. pp. 468-471.
GOST all authors (up to 50) Copy
Markov P. V., Smirnova N. S., Baeva G. N., Bukhtiyarov A. V., Mashkovsky I. S., Stakheev A. Y. Intermetallic PdxIny/Al2O3 catalysts with isolated single-atom Pd sites for one-pot hydrogenation of diphenylacetylene into trans-stilbene // Mendeleev Communications. 2020. Vol. 30. No. 4. pp. 468-471.
RIS
 | 
Cite this
RIS Copy
TY - JOUR
DO - 10.1016/j.mencom.2020.07.020
UR - https://mendcomm.colab.ws/publications/10.1016/j.mencom.2020.07.020
TI - Intermetallic PdxIny/Al2O3 catalysts with isolated single-atom Pd sites for one-pot hydrogenation of diphenylacetylene into trans-stilbene
T2 - Mendeleev Communications
AU - Markov, Pavel Viktorovich
AU - Smirnova, Nadezhda Sergeevna
AU - Baeva, Galina Nikolaevna
AU - Bukhtiyarov, Andrey Valerievich
AU - Mashkovsky, Igor' Sergeevich
AU - Stakheev, Aleksandr Yurevich
PY - 2020
DA - 2020/06/26
PB - Mendeleev Communications
SP - 468-471
IS - 4
VL - 30
ER -
BibTex
 | 
Cite this
BibTex (up to 50 authors) Copy
@article{2020_Markov,
author = {Pavel Viktorovich Markov and Nadezhda Sergeevna Smirnova and Galina Nikolaevna Baeva and Andrey Valerievich Bukhtiyarov and Igor' Sergeevich Mashkovsky and Aleksandr Yurevich Stakheev},
title = {Intermetallic PdxIny/Al2O3 catalysts with isolated single-atom Pd sites for one-pot hydrogenation of diphenylacetylene into trans-stilbene},
journal = {Mendeleev Communications},
year = {2020},
volume = {30},
publisher = {Mendeleev Communications},
month = {Jun},
url = {https://mendcomm.colab.ws/publications/10.1016/j.mencom.2020.07.020},
number = {4},
pages = {468--471},
doi = {10.1016/j.mencom.2020.07.020}
}
MLA
Cite this
MLA Copy
Markov, Pavel Viktorovich, et al. “Intermetallic PdxIny/Al2O3 catalysts with isolated single-atom Pd sites for one-pot hydrogenation of diphenylacetylene into trans-stilbene.” Mendeleev Communications, vol. 30, no. 4, Jun. 2020, pp. 468-471. https://mendcomm.colab.ws/publications/10.1016/j.mencom.2020.07.020.

Keywords

trans-alkenes
alkynes
hydrogenation
indium
intermetallic systems
isomerization
palladium
single-atom site
stilbene

Abstract

Novel one-pot synthesis of trans-stilbene comprises hydrogenation of diphenylacetylene into cis-stilbene followed by its hydroisomerization, over the catalyst being intermetallic PdxIny/Al2O3 system with isolated single-atom Pd1 sites. The hydroisomerization rate in the process is comparable or exceeds the over-hydrogenation into 1,2-diphenylethane thus providing 76% yield of trans-stilbene in the case of Pd2In3/Al2O3 catalyst. This result presumably stems from the formation of ordered single-atom Pd1 sites with favorable hydroisomerization ability on the surface of PdxIny catalysts.

References

1.
Olefin Purification and Selective Hydrogenation of Alkynes with Low Loaded Pd Nanoparticle Catalysts
Cordoba M., Coloma-Pascual F., Quiroga M.E., Lederhos C.R.
Industrial & Engineering Chemistry Research, 2019
2.
Development of new methods in modern selective organic synthesis: Preparation of functionalized molecules with atomic precision
Ananikov V.P., Khemchyan L.L., Ivanova Y.V., Bukhtiyarov V.I., Sorokin A.M., Prosvirin I.P., Vatsadze S.Z., Medved'ko A.V., Nuriev V.N., Dilman A.D., Levin V.V., Koptyug I.V., Kovtunov K.V., Zhivonitko V.V., Likholobov V.A., et. al.
Russian Chemical Reviews, 2014
5.
Well-Defined Rhodium-Gallium Catalytic Sites in a Metal-Organic Framework: Promoter-Controlled Selectivity in Alkyne Semihydrogenation to E-Alkenes.
Desai S.P., Ye J., Zheng J., Ferrandon M.S., Webber T.E., Platero-Prats A.E., Duan J., Garcia-Holley P., Camaioni D.M., Chapman K.W., Delferro M., Farha O.K., Fulton J.L., Gagliardi L., Lercher J.A., et. al.
Journal of the American Chemical Society, 2018
8.
Half-Sandwich Ruthenium Carbene Complexes Link trans-Hydrogenation and gem-Hydrogenation of Internal Alkynes.
Guthertz A., Leutzsch M., Wolf L.M., Gupta P., Rummelt S.M., Goddard R., Farès C., Thiel W., Fürstner A.
Journal of the American Chemical Society, 2018
11.
Nickel‐Catalyzed Stereodivergent Synthesis of E‐ and Z‐Alkenes by Hydrogenation of Alkynes
Murugesan K., Bheeter C.B., Linnebank P.R., Spannenberg A., Reek J.N., Jagadeesh R.V., Beller M.
ChemSusChem, 2019
12.
Catalytic Chemoselective and Stereoselective Semihydrogenation of Alkynes to E-Alkenes Using the Combination of Pd Catalyst and ZnI2.
Maazaoui R., Abderrahim R., Chemla F., Ferreira F., Perez-Luna A., Jackowski O.
Organic Letters, 2018
16.
Single-atom catalysts: a new frontier in heterogeneous catalysis.
Yang X., Wang A., Qiao B., Li J., Liu J., Zhang T.
Accounts of Chemical Research, 2013
18.
The Multifaceted Reactivity of Single-Atom Heterogeneous Catalysts.
Mitchell S., Vorobyeva E., Pérez‐Ramírez J.
Angewandte Chemie - International Edition, 2018
19.
Single-Atom Alloys as a Reductionist Approach to the Rational Design of Heterogeneous Catalysts
Giannakakis G., Flytzani-Stephanopoulos M., Sykes E.C.
Accounts of Chemical Research, 2018
20.
Highly-ordered pdin intermetallic nanostructures obtained from heterobimetallic acetate complex: Formation and catalytic properties in diphenylacetylene hydrogenation
Mashkovsky I., Markov P., Bragina G., Baeva G., Rassolov A., Yakushev I., Vargaftik M., Stakheev A.
Nanomaterials, 2018
21.
Mashkovsky I.S., Smirnova N.S., Markov P.V., Baeva G.N., Bragina G.O., Bukhtiyarov A.V., Prosvirin I.P., Stakheev A.Y.
Mendeleev Communications, 2018
22.
Supported catalysts based on Pd–In nanoparticles for the liquid- phase hydrogenation of terminal and internal alkynes: 2. catalytic properties
Markov P.V., Bragina G.O., Baeva G.N., Mashkovskii I.S., Rassolov A.V., Yakushev I.A., Vargaftik M.N., Stakheev A.Y.
Kinetics and Catalysis, 2016
23.
Pd–In intermetallic alloy nanoparticles: highly selective ethane dehydrogenation catalysts
Wu Z., Wegener E.C., Tseng H., Gallagher J.R., Harris J.W., Diaz R.E., Ren Y., Ribeiro F.H., Miller J.T.
Catalysis Science and Technology, 2016
24.
Controlled synthesis of α-Al2O3 via the hydrothermal-pyrolysis method
Li Z., Wu K., Cao J., Wang Y.
IOP Conference Series: Materials Science and Engineering, 2017
25.
Mashkovsky I.S., Markov P.V., Bragina G.O., Baeva G.N., Rassolov A.V., Bukhtiyarov A.V., Prosvirin I.P., Bukhtiyarov V.I., Stakheev A.Y.
Mendeleev Communications, 2018
26.
Pd-In2O3 interaction due to reduction in hydrogen: Consequences for methanol steam reforming
Lorenz H., Turner S., Lebedev O.I., Van Tendeloo G., Klötzer B., Rameshan C., Pfaller K., Penner S.
Applied Catalysis A: General, 2010
28.
Metallic indium spheres by the anaerobic ethanol oxidation of indium oxide
Choi Y.I., Kim S.K., Lee S.W., Sohn Y.
Journal of Alloys and Compounds, 2016
29.
CO2-selective methanol steam reforming on In-doped Pd studied by in situ X-ray photoelectron spectroscopy
Rameshan C., Lorenz H., Mayr L., Penner S., Zemlyanov D., Arrigo R., Haevecker M., Blume R., Knop-Gericke A., Schlögl R., Klötzer B.
Journal of Catalysis, 2012
30.
Controlled synthesis and catalytic properties of supported In–Pd intermetallic compounds
Neumann M., Teschner D., Knop-Gericke A., Reschetilowski W., Armbrüster M.
Journal of Catalysis, 2016
31.
CO Adsorption on Monometallic and Bimetallic Au−Pd Nanoparticles Supported on Oxide Thin Films
Abbott H.L., Aumer A., Lei Y., Asokan C., Meyer R.J., Sterrer M., Shaikhutdinov S., Freund H.-.
Journal of Physical Chemistry C, 2010
32.
CO Adsorption on Pd Nanoparticles:  Density Functional and Vibrational Spectroscopy Studies
Yudanov I.V., Sahnoun R., Neyman K.M., Rösch N., Hoffmann J., Schauermann S., Johánek V., Unterhalt H., Rupprechter G., Libuda J., Freund H.
Journal of Physical Chemistry B, 2002
35.
A new approach to well-defined, stable and site-isolated catalysts
Kovnir K., Armbrüster M., Teschner D., Venkov T.V., Jentoft F.C., Knop-Gericke A., Grin Y., Schlögl R.
Science and Technology of Advanced Materials, 2007
36.
Dynamic Structure of a Working Methanol Steam Reforming Catalyst: In Situ Quick-EXAFS on Pd/ZnO Nanoparticles
Föttinger K., van Bokhoven J.A., Nachtegaal M., Rupprechter G.
Journal of Physical Chemistry Letters, 2011
37.
Stakheev A.Y., Smirnova N.S., Krivoruchenko D.S., Baeva G.N., Mashkovsky I.S., Yakushev I.A., Vargaftik M.N.
Mendeleev Communications, 2017
38.
How to Control the Selectivity of Palladium-based Catalysts in Hydrogenation Reactions: The Role of Subsurface Chemistry
Armbrüster M., Behrens M., Cinquini F., Föttinger K., Grin Y., Haghofer A., Klötzer B., Knop-Gericke A., Lorenz H., Ota A., Penner S., Prinz J., Rameshan C., Révay Z., Rosenthal D., et. al.
ChemCatChem, 2012
40.
Isolated Single-Atom Pd Sites in Intermetallic Nanostructures: High Catalytic Selectivity for Semihydrogenation of Alkynes
Feng Q., Zhao S., Wang Y., Dong J., Chen W., He D., Wang D., Yang J., Zhu Y., Zhu H., Gu L., Li Z., Liu Y., Yu R., Li J., et. al.
Journal of the American Chemical Society, 2017
41.
Selective Stereochemical Catalysis Controlled by Specific Atomic Arrangement of Ordered Alloys
Furukawa S., Ochi K., Luo H., Miyazaki M., Komatsu T.
ChemCatChem, 2015