Standard

Ugi's amine based coordination polymers as synergistic catalysts for the electrocatalytic reduction of carbon dioxide. / Khrizanforov, Mikhail; Nailieva, Farida F.; Ivshin, Kamil; Zagidullin, Almaz; Samorodnova, Anastasiia P.; Shekurov, Ruslan Petrovich; Milyukova, Polina; Laskin, Artem; Novikov, Alexander S.; Vasili, Miluykov.

в: Dalton Transactions, Том 53, № 42, 01.10.2024, стр. 17351-17360.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Khrizanforov, M, Nailieva, FF, Ivshin, K, Zagidullin, A, Samorodnova, AP, Shekurov, RP, Milyukova, P, Laskin, A, Novikov, AS & Vasili, M 2024, 'Ugi's amine based coordination polymers as synergistic catalysts for the electrocatalytic reduction of carbon dioxide', Dalton Transactions, Том. 53, № 42, стр. 17351-17360. https://doi.org/10.1039/d4dt01181c

APA

Khrizanforov, M., Nailieva, F. F., Ivshin, K., Zagidullin, A., Samorodnova, A. P., Shekurov, R. P., Milyukova, P., Laskin, A., Novikov, A. S., & Vasili, M. (2024). Ugi's amine based coordination polymers as synergistic catalysts for the electrocatalytic reduction of carbon dioxide. Dalton Transactions, 53(42), 17351-17360. https://doi.org/10.1039/d4dt01181c

Vancouver

Khrizanforov M, Nailieva FF, Ivshin K, Zagidullin A, Samorodnova AP, Shekurov RP и пр. Ugi's amine based coordination polymers as synergistic catalysts for the electrocatalytic reduction of carbon dioxide. Dalton Transactions. 2024 Окт. 1;53(42):17351-17360. https://doi.org/10.1039/d4dt01181c

Author

Khrizanforov, Mikhail ; Nailieva, Farida F. ; Ivshin, Kamil ; Zagidullin, Almaz ; Samorodnova, Anastasiia P. ; Shekurov, Ruslan Petrovich ; Milyukova, Polina ; Laskin, Artem ; Novikov, Alexander S. ; Vasili, Miluykov. / Ugi's amine based coordination polymers as synergistic catalysts for the electrocatalytic reduction of carbon dioxide. в: Dalton Transactions. 2024 ; Том 53, № 42. стр. 17351-17360.

BibTeX

@article{48ae0169113244debd0bf198dab7708f,
title = "Ugi's amine based coordination polymers as synergistic catalysts for the electrocatalytic reduction of carbon dioxide",
abstract = "The escalating concentration of carbon dioxide in the atmosphere is a pressing environmental concern, necessitating the development of efficient technologies for CO2 reduction and utilization. In this context, metal-organic frameworks (MOFs) emerge as promising catalysts due to their tunable structures and unique chemical properties. This study focuses on the synthesis, characterization, and evaluation of amino-functionalized MOFs with cobalt and nickel nodes for the electrochemical reduction of CO2. Electrochemical investigations reveal that a cobalt-based MOF primarily facilitates the production of methane, demonstrating high selectivity and efficiency under controlled conditions. In contrast, a nickel-based MOF exhibits a broader array of reduction products, including methane, CO, and ethanol, with a significant conversion efficiency. These differences underscore the impact of the central metal node on the catalytic activity and product distribution. This comprehensive study not only advances our understanding of MOF-based catalysts for CO2 reduction but also underscores the significance of molecular engineering in enhancing the selectivity and efficiency of these processes. By demonstrating the potential of amino-functionalized MOFs with specific metal nodes, we contribute to the development of sustainable solutions for carbon capture and utilization, aligning with global efforts to mitigate climate changes and foster a green chemical industry.",
author = "Mikhail Khrizanforov and Nailieva, {Farida F.} and Kamil Ivshin and Almaz Zagidullin and Samorodnova, {Anastasiia P.} and Shekurov, {Ruslan Petrovich} and Polina Milyukova and Artem Laskin and Novikov, {Alexander S.} and Miluykov Vasili",
year = "2024",
month = oct,
day = "1",
doi = "10.1039/d4dt01181c",
language = "English",
volume = "53",
pages = "17351--17360",
journal = "Dalton Transactions",
issn = "1477-9226",
publisher = "Royal Society of Chemistry",
number = "42",

}

RIS

TY - JOUR

T1 - Ugi's amine based coordination polymers as synergistic catalysts for the electrocatalytic reduction of carbon dioxide

AU - Khrizanforov, Mikhail

AU - Nailieva, Farida F.

AU - Ivshin, Kamil

AU - Zagidullin, Almaz

AU - Samorodnova, Anastasiia P.

AU - Shekurov, Ruslan Petrovich

AU - Milyukova, Polina

AU - Laskin, Artem

AU - Novikov, Alexander S.

AU - Vasili, Miluykov

PY - 2024/10/1

Y1 - 2024/10/1

N2 - The escalating concentration of carbon dioxide in the atmosphere is a pressing environmental concern, necessitating the development of efficient technologies for CO2 reduction and utilization. In this context, metal-organic frameworks (MOFs) emerge as promising catalysts due to their tunable structures and unique chemical properties. This study focuses on the synthesis, characterization, and evaluation of amino-functionalized MOFs with cobalt and nickel nodes for the electrochemical reduction of CO2. Electrochemical investigations reveal that a cobalt-based MOF primarily facilitates the production of methane, demonstrating high selectivity and efficiency under controlled conditions. In contrast, a nickel-based MOF exhibits a broader array of reduction products, including methane, CO, and ethanol, with a significant conversion efficiency. These differences underscore the impact of the central metal node on the catalytic activity and product distribution. This comprehensive study not only advances our understanding of MOF-based catalysts for CO2 reduction but also underscores the significance of molecular engineering in enhancing the selectivity and efficiency of these processes. By demonstrating the potential of amino-functionalized MOFs with specific metal nodes, we contribute to the development of sustainable solutions for carbon capture and utilization, aligning with global efforts to mitigate climate changes and foster a green chemical industry.

AB - The escalating concentration of carbon dioxide in the atmosphere is a pressing environmental concern, necessitating the development of efficient technologies for CO2 reduction and utilization. In this context, metal-organic frameworks (MOFs) emerge as promising catalysts due to their tunable structures and unique chemical properties. This study focuses on the synthesis, characterization, and evaluation of amino-functionalized MOFs with cobalt and nickel nodes for the electrochemical reduction of CO2. Electrochemical investigations reveal that a cobalt-based MOF primarily facilitates the production of methane, demonstrating high selectivity and efficiency under controlled conditions. In contrast, a nickel-based MOF exhibits a broader array of reduction products, including methane, CO, and ethanol, with a significant conversion efficiency. These differences underscore the impact of the central metal node on the catalytic activity and product distribution. This comprehensive study not only advances our understanding of MOF-based catalysts for CO2 reduction but also underscores the significance of molecular engineering in enhancing the selectivity and efficiency of these processes. By demonstrating the potential of amino-functionalized MOFs with specific metal nodes, we contribute to the development of sustainable solutions for carbon capture and utilization, aligning with global efforts to mitigate climate changes and foster a green chemical industry.

UR - https://www.mendeley.com/catalogue/6bea8908-d84d-35a3-911e-a3c5bda41b6f/

U2 - 10.1039/d4dt01181c

DO - 10.1039/d4dt01181c

M3 - Article

VL - 53

SP - 17351

EP - 17360

JO - Dalton Transactions

JF - Dalton Transactions

SN - 1477-9226

IS - 42

ER -

ID: 125273716