Аннотация:
The title complexes were prepared, and their redox and catalytic properties in hydrogen evolution reaction were examined. The catalytic current increases in the presence of a proton source near the potential of the nickel(I/0) couple for a mixture of nickel(II) complexes with different ligands. Moreover, the catalytic activity of mixed-ligand complexes in the hydrogen evolution reaction was higher than that of a bis-chelated diphosphine nickel(II) complex.
Образец цитирования:
V. V. Khrizanforova, R. R. Fayzullin, E. I. Musina, A. A. Karasik, Yu. H. Budnikova, “Electrochemical and catalytic properties of nickel(II) complexes with bis(imino)acenaphthene and diazadiphosphacyclooctane ligands”, Mendeleev Commun., 30:3 (2020), 302–304
Образцы ссылок на эту страницу:
https://www.mathnet.ru/rus/mendc1177
https://www.mathnet.ru/rus/mendc/v30/i3/p302
Эта публикация цитируется в следующих 10 статьяx:
Igor D. Strelnik, Tatiana P. Gerasimova, Kseniya A. Karasik, Igor A. Litvinov, Irina R. Dayanova, Kamil D. Ahmadgaleev, Alexey V. Kurenkov, Elvira I. Musina, Andrey A. Karasik, “New classification of cyclic P2N2-ligands predicting bridging and chelate coordination”, Inorganic Chemistry Communications, 172 (2025), 113638
Ibukun O. Shotonwa, Onome Ejeromedoghene, Adedoyin O. Adesoji, Yakubu A. Alli, Caroline Akinremi, Sheriff Adewuyi, “Hydrogen production based on hexacoordinated cobalt scaffolds as electrocatalysts for acid-proton reduction: Electrochemistry and mechanisms”, Journal of Electroanalytical Chemistry, 963 (2024), 118228
Iakov S. Fomenko, Nikolay F. Romashev, Artem L. Gushchin, “Advances in the chemistry of redox-active bis(imino)acenaphthenes (BIAN): A case of transition metal complexes”, Coordination Chemistry Reviews, 514 (2024), 215845
Maia E. Czaikowski, Sophie W. Anferov, Alex P. Tascher, John S. Anderson, “Electrocatalytic Semihydrogenation of Terminal Alkynes Using Ligand-Based Transfer of Protons and Electrons”, J. Am. Chem. Soc., 146:1 (2024), 476
A. Saraswat, S. Kumar, “An Overview of 3d Metalla-Electrochemical Functionalization for Sustainable Organic Transformations (A Review)”, Russ J Gen Chem, 93:5 (2023), 1222
Ibukun Oluwaseun Shotonwa, Onome Ejeromedoghene, Adedoyin Oluseyi Adesoji, Sheriff Adewuyi, “Electrochemistry and electrocatalysis of H2 generation using hexacoordinated nickel—based complexes”, Catalysis Communications, 179 (2023), 106680
Eric S. Wiedner, Aaron M. Appel, Simone Raugei, Wendy J. Shaw, R. Morris Bullock, “Molecular Catalysts with Diphosphine Ligands Containing Pendant Amines”, Chem. Rev., 122:14 (2022), 12427
Renat R. Nazmutdinov, Yulia B. Dudkina, Tamara T. Zinkicheva, Yulia H. Budnikova, Michael Probst, “Ligand and solvent effects on the kinetics of the electrochemical reduction of Ni(II) complexes: Experiment and quantum chemical modeling”, Electrochimica Acta, 395 (2021), 139138
I. V. Nazarov, E. V. Bermesheva, K. V. Potapov, Z. B. Khesina, M. M. Ilyin, E. K. Melnikova, M. V. Bermeshev, “Palladium complex with tetrahydronaphthyl-substituted diimine ligand as a catalyst for polymerization of norbornenes and diazoacetates”, Mendeleev Commun., 31:5 (2021), 690–692
Yulia H. Budnikova, Vera V. Khrizanforova, “Synthetic models of hydrogenases based on framework structures containing coordinating P, N-atoms as hydrogen energy electrocatalysts – from molecules to materials”, Pure and Applied Chemistry, 92:8 (2020), 1305
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