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Mechanism of generation of Closo -decaborato amidrazones. Intramolecular non-covalent B-H⋯π(Ph) interaction determines stabilization of the configuration around the amidrazone CN bond. / Burianova, Valeria K.; Bolotin, Dmitrii S.; Mikherdov, Alexander S.; Novikov, Alexander S.; Mokolokolo, Pennie Petrus; Roodt, Andreas; Boyarskiy, Vadim P.; Dar'In, Dmitry; Krasavin, Mikhail; Suslonov, Vitalii V.; Zhdanov, Andrey P.; Zhizhin, Konstantin Yu; Kuznetsov, Nikolay T.

In: New Journal of Chemistry, Vol. 42, No. 11, 07.06.2018, p. 8693-8703.

Research output: Contribution to journalArticlepeer-review

Harvard

Burianova, VK, Bolotin, DS, Mikherdov, AS, Novikov, AS, Mokolokolo, PP, Roodt, A, Boyarskiy, VP, Dar'In, D, Krasavin, M, Suslonov, VV, Zhdanov, AP, Zhizhin, KY & Kuznetsov, NT 2018, 'Mechanism of generation of Closo -decaborato amidrazones. Intramolecular non-covalent B-H⋯π(Ph) interaction determines stabilization of the configuration around the amidrazone CN bond', New Journal of Chemistry, vol. 42, no. 11, pp. 8693-8703. https://doi.org/10.1039/C8NJ01018H, https://doi.org/10.1039/c8nj01018h

APA

Burianova, V. K., Bolotin, D. S., Mikherdov, A. S., Novikov, A. S., Mokolokolo, P. P., Roodt, A., Boyarskiy, V. P., Dar'In, D., Krasavin, M., Suslonov, V. V., Zhdanov, A. P., Zhizhin, K. Y., & Kuznetsov, N. T. (2018). Mechanism of generation of Closo -decaborato amidrazones. Intramolecular non-covalent B-H⋯π(Ph) interaction determines stabilization of the configuration around the amidrazone CN bond. New Journal of Chemistry, 42(11), 8693-8703. https://doi.org/10.1039/C8NJ01018H, https://doi.org/10.1039/c8nj01018h

Vancouver

Burianova VK, Bolotin DS, Mikherdov AS, Novikov AS, Mokolokolo PP, Roodt A et al. Mechanism of generation of Closo -decaborato amidrazones. Intramolecular non-covalent B-H⋯π(Ph) interaction determines stabilization of the configuration around the amidrazone CN bond. New Journal of Chemistry. 2018 Jun 7;42(11):8693-8703. https://doi.org/10.1039/C8NJ01018H, https://doi.org/10.1039/c8nj01018h

Author

Burianova, Valeria K. ; Bolotin, Dmitrii S. ; Mikherdov, Alexander S. ; Novikov, Alexander S. ; Mokolokolo, Pennie Petrus ; Roodt, Andreas ; Boyarskiy, Vadim P. ; Dar'In, Dmitry ; Krasavin, Mikhail ; Suslonov, Vitalii V. ; Zhdanov, Andrey P. ; Zhizhin, Konstantin Yu ; Kuznetsov, Nikolay T. / Mechanism of generation of Closo -decaborato amidrazones. Intramolecular non-covalent B-H⋯π(Ph) interaction determines stabilization of the configuration around the amidrazone CN bond. In: New Journal of Chemistry. 2018 ; Vol. 42, No. 11. pp. 8693-8703.

BibTeX

@article{4ed3083541424865a571eaf23c4ca02e,
title = "Mechanism of generation of Closo -decaborato amidrazones.: Intramolecular non-covalent B-H⋯π(Ph) interaction determines stabilization of the configuration around the amidrazone CN bond",
abstract = "Three types of N(H)-nucleophiles, viz. hydrazine, acetyl hydrazide, and a set of hydrazones, were used to study the nucleophilic addition to the CN group of the 2-propanenitrilium closo-decaborate cluster (Ph3PCH2Ph)[B10H9NCEt], giving N-closo-decaborato amidrazones. A systematic mechanistic study of the nucleophilic addition is provided and included detailed synthetic, crystallographic, computational and kinetic work. As a result, two possible mechanisms have been proposed, which consist of firstly a consecutive incorporation of two Nu(H) nucleophiles, with the second responsible for a subsequent rapid proton exchange. The second possible mechanism assumes a pre-formation of a dinuclear [Nu(H)]2 species which subsequently proceeds with the nucleophilic attack on the boron cluster. The activation parameters for hydrazones indicate a small dependence on bond formation [ΔH‡ = 6.8-15 kJ mol-1], but significantly negative entropies of activation [ΔS‡ ranges from -139 to -164 J K-1 mol-1] with the latter contributing some 70-80% of the total Gibbs free energy of activation, ΔG‡. In the X-ray structure of (Z)-(Ph3PCH2Ph)[B10H9N(H)C(Et)NHNCPh2], very rare intramolecular non-covalent B-H⋯π(Ph) interactions were detected and studied by DFT calculations (M06-2x/6-311++G∗∗ level of theory) and topological analysis of the electron density distribution within the framework of Bader's theory (QTAIM method). The estimated strength of these non-covalent interactions is 0.8-1.4 kcal mol-1.",
keywords = "ANION DERIVATIVES, B-H ACTIVATION, CENTER-DOT-PI, CRYSTAL-STRUCTURES, HYDROGEN-BOND, NEUTRON-CAPTURE THERAPY, NITRILIUM DERIVATIVES, NUCLEOPHILIC-ADDITION, PLATINUM(II) COMPLEXES, SUBSTITUTION-REACTIONS",
author = "Burianova, {Valeria K.} and Bolotin, {Dmitrii S.} and Mikherdov, {Alexander S.} and Novikov, {Alexander S.} and Mokolokolo, {Pennie Petrus} and Andreas Roodt and Boyarskiy, {Vadim P.} and Dmitry Dar'In and Mikhail Krasavin and Suslonov, {Vitalii V.} and Zhdanov, {Andrey P.} and Zhizhin, {Konstantin Yu} and Kuznetsov, {Nikolay T.}",
year = "2018",
month = jun,
day = "7",
doi = "10.1039/C8NJ01018H",
language = "English",
volume = "42",
pages = "8693--8703",
journal = "New Journal of Chemistry",
issn = "1144-0546",
publisher = "Royal Society of Chemistry",
number = "11",

}

RIS

TY - JOUR

T1 - Mechanism of generation of Closo -decaborato amidrazones.

T2 - Intramolecular non-covalent B-H⋯π(Ph) interaction determines stabilization of the configuration around the amidrazone CN bond

AU - Burianova, Valeria K.

AU - Bolotin, Dmitrii S.

AU - Mikherdov, Alexander S.

AU - Novikov, Alexander S.

AU - Mokolokolo, Pennie Petrus

AU - Roodt, Andreas

AU - Boyarskiy, Vadim P.

AU - Dar'In, Dmitry

AU - Krasavin, Mikhail

AU - Suslonov, Vitalii V.

AU - Zhdanov, Andrey P.

AU - Zhizhin, Konstantin Yu

AU - Kuznetsov, Nikolay T.

PY - 2018/6/7

Y1 - 2018/6/7

N2 - Three types of N(H)-nucleophiles, viz. hydrazine, acetyl hydrazide, and a set of hydrazones, were used to study the nucleophilic addition to the CN group of the 2-propanenitrilium closo-decaborate cluster (Ph3PCH2Ph)[B10H9NCEt], giving N-closo-decaborato amidrazones. A systematic mechanistic study of the nucleophilic addition is provided and included detailed synthetic, crystallographic, computational and kinetic work. As a result, two possible mechanisms have been proposed, which consist of firstly a consecutive incorporation of two Nu(H) nucleophiles, with the second responsible for a subsequent rapid proton exchange. The second possible mechanism assumes a pre-formation of a dinuclear [Nu(H)]2 species which subsequently proceeds with the nucleophilic attack on the boron cluster. The activation parameters for hydrazones indicate a small dependence on bond formation [ΔH‡ = 6.8-15 kJ mol-1], but significantly negative entropies of activation [ΔS‡ ranges from -139 to -164 J K-1 mol-1] with the latter contributing some 70-80% of the total Gibbs free energy of activation, ΔG‡. In the X-ray structure of (Z)-(Ph3PCH2Ph)[B10H9N(H)C(Et)NHNCPh2], very rare intramolecular non-covalent B-H⋯π(Ph) interactions were detected and studied by DFT calculations (M06-2x/6-311++G∗∗ level of theory) and topological analysis of the electron density distribution within the framework of Bader's theory (QTAIM method). The estimated strength of these non-covalent interactions is 0.8-1.4 kcal mol-1.

AB - Three types of N(H)-nucleophiles, viz. hydrazine, acetyl hydrazide, and a set of hydrazones, were used to study the nucleophilic addition to the CN group of the 2-propanenitrilium closo-decaborate cluster (Ph3PCH2Ph)[B10H9NCEt], giving N-closo-decaborato amidrazones. A systematic mechanistic study of the nucleophilic addition is provided and included detailed synthetic, crystallographic, computational and kinetic work. As a result, two possible mechanisms have been proposed, which consist of firstly a consecutive incorporation of two Nu(H) nucleophiles, with the second responsible for a subsequent rapid proton exchange. The second possible mechanism assumes a pre-formation of a dinuclear [Nu(H)]2 species which subsequently proceeds with the nucleophilic attack on the boron cluster. The activation parameters for hydrazones indicate a small dependence on bond formation [ΔH‡ = 6.8-15 kJ mol-1], but significantly negative entropies of activation [ΔS‡ ranges from -139 to -164 J K-1 mol-1] with the latter contributing some 70-80% of the total Gibbs free energy of activation, ΔG‡. In the X-ray structure of (Z)-(Ph3PCH2Ph)[B10H9N(H)C(Et)NHNCPh2], very rare intramolecular non-covalent B-H⋯π(Ph) interactions were detected and studied by DFT calculations (M06-2x/6-311++G∗∗ level of theory) and topological analysis of the electron density distribution within the framework of Bader's theory (QTAIM method). The estimated strength of these non-covalent interactions is 0.8-1.4 kcal mol-1.

KW - ANION DERIVATIVES

KW - B-H ACTIVATION

KW - CENTER-DOT-PI

KW - CRYSTAL-STRUCTURES

KW - HYDROGEN-BOND

KW - NEUTRON-CAPTURE THERAPY

KW - NITRILIUM DERIVATIVES

KW - NUCLEOPHILIC-ADDITION

KW - PLATINUM(II) COMPLEXES

KW - SUBSTITUTION-REACTIONS

UR - http://www.scopus.com/inward/record.url?scp=85048006252&partnerID=8YFLogxK

UR - http://www.mendeley.com/research/mechanism-generation-closo-decaborato-amidrazones-intramolecular-noncovalent-bh%CF%80ph-interaction-deter

U2 - 10.1039/C8NJ01018H

DO - 10.1039/C8NJ01018H

M3 - Article

AN - SCOPUS:85048006252

VL - 42

SP - 8693

EP - 8703

JO - New Journal of Chemistry

JF - New Journal of Chemistry

SN - 1144-0546

IS - 11

ER -

ID: 18472774