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Mechanism of H/D Hydrogen Exchange of n-Butane with Brønsted Acid Sites on Zn-Modified Zeolite: The Effect of Different Zn Species (Zn2+and ZnO) on the Activation of Alkane C-H Bonds. / Arzumanov, Sergei S.; Gabrienko, Anton A.; Toktarev, Alexander V. и др.

в: Journal of Physical Chemistry C, Том 124, № 37, 17.09.2020, стр. 20270-20279.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Arzumanov, SS, Gabrienko, AA, Toktarev, AV, Freude, D, Haase, J & Stepanov, AG 2020, 'Mechanism of H/D Hydrogen Exchange of n-Butane with Brønsted Acid Sites on Zn-Modified Zeolite: The Effect of Different Zn Species (Zn2+and ZnO) on the Activation of Alkane C-H Bonds', Journal of Physical Chemistry C, Том. 124, № 37, стр. 20270-20279. https://doi.org/10.1021/acs.jpcc.0c06616

APA

Arzumanov, S. S., Gabrienko, A. A., Toktarev, A. V., Freude, D., Haase, J., & Stepanov, A. G. (2020). Mechanism of H/D Hydrogen Exchange of n-Butane with Brønsted Acid Sites on Zn-Modified Zeolite: The Effect of Different Zn Species (Zn2+and ZnO) on the Activation of Alkane C-H Bonds. Journal of Physical Chemistry C, 124(37), 20270-20279. https://doi.org/10.1021/acs.jpcc.0c06616

Vancouver

Arzumanov SS, Gabrienko AA, Toktarev AV, Freude D, Haase J, Stepanov AG. Mechanism of H/D Hydrogen Exchange of n-Butane with Brønsted Acid Sites on Zn-Modified Zeolite: The Effect of Different Zn Species (Zn2+and ZnO) on the Activation of Alkane C-H Bonds. Journal of Physical Chemistry C. 2020 сент. 17;124(37):20270-20279. doi: 10.1021/acs.jpcc.0c06616

Author

Arzumanov, Sergei S. ; Gabrienko, Anton A. ; Toktarev, Alexander V. и др. / Mechanism of H/D Hydrogen Exchange of n-Butane with Brønsted Acid Sites on Zn-Modified Zeolite: The Effect of Different Zn Species (Zn2+and ZnO) on the Activation of Alkane C-H Bonds. в: Journal of Physical Chemistry C. 2020 ; Том 124, № 37. стр. 20270-20279.

BibTeX

@article{4d09187eafff4065b7ab2df712ecbf7c,
title = "Mechanism of H/D Hydrogen Exchange of n-Butane with Br{\o}nsted Acid Sites on Zn-Modified Zeolite: The Effect of Different Zn Species (Zn2+and ZnO) on the Activation of Alkane C-H Bonds",
abstract = "With the aim of clarifying the effect of Zn species of different nature (small clusters of ZnO and Zn2+ cations) on the activation of alkane C-H bonds by Zn-modified zeolite, the mechanism of the H/D hydrogen exchange of n-butane-d10 with Br{\o}nsted acid sites (BASs) of ZnO/H-BEA and Zn2+/H-BEA zeolites has been investigated with 1H MAS NMR in situ at 413-468 K. It is established that both ZnO and Zn2+ species provide acceleration of the exchange in the methyl groups with a decreased activation energy compared to the exchange in n-butane on pure acid-form zeolite. The effect of Zn2+ cation is more essential. The acceleration has been attributed to the formation of transient complexes of the alkane methyl groups with Zn species preceding the exchange with BAS. For ZnO/H-BEA, the involvement of the methylene groups in the exchange is related to the alkane dehydrogenation to form butene followed by protonation and hydride shift reaction in the formed butyl cation. For Zn2+/H-BEA zeolite, an enhanced rate of the exchange in the methylene groups is due to the contribution of two pathways: direct exchange with the assistance of Zn2+ cations and through the intermediate formation of n-butene. We have concluded that the observed peculiarities of the kinetics of H/D hydrogen exchange of n-butane on Zn2+/H-BEA and ZnO/H-BEA zeolites could be rationalized in terms of a common kinetic scheme realized for two zeolite samples with different kinetic parameters, rate constants, and activation energies for identical reaction steps. ",
keywords = "C-13 MAS NMR, HIGH-SILICA ZEOLITES, LIGHT ALKANES, PROPANE AROMATIZATION, ZN/MFI CATALYST, ZSM-5 ZEOLITES, ACTIVE-SITES, CONVERSION, H-1, ETHANE",
author = "Arzumanov, {Sergei S.} and Gabrienko, {Anton A.} and Toktarev, {Alexander V.} and Dieter Freude and J{\"u}rgen Haase and Stepanov, {Alexander G.}",
note = "This work was supported by Russian Science Foundation (RSF) (Grant No. 19-43-04101) and Deutsche Forschungsgemeinschaft (DFG) (Grant No. HA 1893/22-1).",
year = "2020",
month = sep,
day = "17",
doi = "10.1021/acs.jpcc.0c06616",
language = "English",
volume = "124",
pages = "20270--20279",
journal = "Journal of Physical Chemistry C",
issn = "1932-7447",
publisher = "American Chemical Society",
number = "37",

}

RIS

TY - JOUR

T1 - Mechanism of H/D Hydrogen Exchange of n-Butane with Brønsted Acid Sites on Zn-Modified Zeolite: The Effect of Different Zn Species (Zn2+and ZnO) on the Activation of Alkane C-H Bonds

AU - Arzumanov, Sergei S.

AU - Gabrienko, Anton A.

AU - Toktarev, Alexander V.

AU - Freude, Dieter

AU - Haase, Jürgen

AU - Stepanov, Alexander G.

N1 - This work was supported by Russian Science Foundation (RSF) (Grant No. 19-43-04101) and Deutsche Forschungsgemeinschaft (DFG) (Grant No. HA 1893/22-1).

PY - 2020/9/17

Y1 - 2020/9/17

N2 - With the aim of clarifying the effect of Zn species of different nature (small clusters of ZnO and Zn2+ cations) on the activation of alkane C-H bonds by Zn-modified zeolite, the mechanism of the H/D hydrogen exchange of n-butane-d10 with Brønsted acid sites (BASs) of ZnO/H-BEA and Zn2+/H-BEA zeolites has been investigated with 1H MAS NMR in situ at 413-468 K. It is established that both ZnO and Zn2+ species provide acceleration of the exchange in the methyl groups with a decreased activation energy compared to the exchange in n-butane on pure acid-form zeolite. The effect of Zn2+ cation is more essential. The acceleration has been attributed to the formation of transient complexes of the alkane methyl groups with Zn species preceding the exchange with BAS. For ZnO/H-BEA, the involvement of the methylene groups in the exchange is related to the alkane dehydrogenation to form butene followed by protonation and hydride shift reaction in the formed butyl cation. For Zn2+/H-BEA zeolite, an enhanced rate of the exchange in the methylene groups is due to the contribution of two pathways: direct exchange with the assistance of Zn2+ cations and through the intermediate formation of n-butene. We have concluded that the observed peculiarities of the kinetics of H/D hydrogen exchange of n-butane on Zn2+/H-BEA and ZnO/H-BEA zeolites could be rationalized in terms of a common kinetic scheme realized for two zeolite samples with different kinetic parameters, rate constants, and activation energies for identical reaction steps.

AB - With the aim of clarifying the effect of Zn species of different nature (small clusters of ZnO and Zn2+ cations) on the activation of alkane C-H bonds by Zn-modified zeolite, the mechanism of the H/D hydrogen exchange of n-butane-d10 with Brønsted acid sites (BASs) of ZnO/H-BEA and Zn2+/H-BEA zeolites has been investigated with 1H MAS NMR in situ at 413-468 K. It is established that both ZnO and Zn2+ species provide acceleration of the exchange in the methyl groups with a decreased activation energy compared to the exchange in n-butane on pure acid-form zeolite. The effect of Zn2+ cation is more essential. The acceleration has been attributed to the formation of transient complexes of the alkane methyl groups with Zn species preceding the exchange with BAS. For ZnO/H-BEA, the involvement of the methylene groups in the exchange is related to the alkane dehydrogenation to form butene followed by protonation and hydride shift reaction in the formed butyl cation. For Zn2+/H-BEA zeolite, an enhanced rate of the exchange in the methylene groups is due to the contribution of two pathways: direct exchange with the assistance of Zn2+ cations and through the intermediate formation of n-butene. We have concluded that the observed peculiarities of the kinetics of H/D hydrogen exchange of n-butane on Zn2+/H-BEA and ZnO/H-BEA zeolites could be rationalized in terms of a common kinetic scheme realized for two zeolite samples with different kinetic parameters, rate constants, and activation energies for identical reaction steps.

KW - C-13 MAS NMR

KW - HIGH-SILICA ZEOLITES

KW - LIGHT ALKANES

KW - PROPANE AROMATIZATION

KW - ZN/MFI CATALYST

KW - ZSM-5 ZEOLITES

KW - ACTIVE-SITES

KW - CONVERSION

KW - H-1

KW - ETHANE

UR - http://www.scopus.com/inward/record.url?scp=85095445222&partnerID=8YFLogxK

U2 - 10.1021/acs.jpcc.0c06616

DO - 10.1021/acs.jpcc.0c06616

M3 - Article

AN - SCOPUS:85095445222

VL - 124

SP - 20270

EP - 20279

JO - Journal of Physical Chemistry C

JF - Journal of Physical Chemistry C

SN - 1932-7447

IS - 37

ER -

ID: 25865003