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Halogen bonding in hypervalent halogen-based systems: Structural determinants and supramolecular diversity. / Кукушкин, Вадим Юрьевич; Солдатова, Наталья; Князева, Елизавета; Постников, Павел.

в: Coordination Chemistry Reviews, Том 556, 217585, 01.06.2026.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Кукушкин, ВЮ, Солдатова, Н, Князева, Е & Постников, П 2026, 'Halogen bonding in hypervalent halogen-based systems: Structural determinants and supramolecular diversity', Coordination Chemistry Reviews, Том. 556, 217585. https://doi.org/10.1016/j.ccr.2026.217585

APA

Кукушкин, В. Ю., Солдатова, Н., Князева, Е., & Постников, П. (2026). Halogen bonding in hypervalent halogen-based systems: Structural determinants and supramolecular diversity. Coordination Chemistry Reviews, 556, [217585]. https://doi.org/10.1016/j.ccr.2026.217585

Vancouver

Кукушкин ВЮ, Солдатова Н, Князева Е, Постников П. Halogen bonding in hypervalent halogen-based systems: Structural determinants and supramolecular diversity. Coordination Chemistry Reviews. 2026 Июнь 1;556. 217585. https://doi.org/10.1016/j.ccr.2026.217585

Author

Кукушкин, Вадим Юрьевич ; Солдатова, Наталья ; Князева, Елизавета ; Постников, Павел. / Halogen bonding in hypervalent halogen-based systems: Structural determinants and supramolecular diversity. в: Coordination Chemistry Reviews. 2026 ; Том 556.

BibTeX

@article{6641445d57a740e2b17b00734172d49e,
title = "Halogen bonding in hypervalent halogen-based systems: Structural determinants and supramolecular diversity",
abstract = "This review presents the first systematic analysis of supramolecular organization in halonium-based systems driven by halogen bonding (XB) interactions. Through comprehensive examination of approximately 600 crystal structures from the Cambridge Structural Database, we establish major principles governing XB-directed assembly patterns across diverse halonium species. Monocationic halonium salts paired with monoanionic counterions constitute over 50% of characterized structures, predominantly forming 0D (85%) and 1D (15%) assemblies. Heterotetrameric motifs—cyclic assemblies comprising two cations and two anions connected through four intermolecular XBs—emerge as the dominant organizational principle (58% of structures). Critically, anion geometry plays the decisive role in directing supramolecular architecture, while cation structure exerts minimal influence. Iodonium (91%) and bromonium derivatives follow consistent assembly trends favoring heterotetrameric motifs, whereas chloronium salts exhibit anomalous behavior. Polycharged systems generate more complex 1D and 2D networks through linking of basic heterotetrameric units. Zwitterionic halonium compounds utilize analogous dimeric motifs as building blocks for extended 1D, 2D, and 3D assemblies, demonstrating promise as building blocks for noncovalent organic frameworks. These findings establish halonium salts as reliable platforms for predictable XB-based crystal engineering.",
keywords = "Crystal engineering, Halogen bonding, Halonium, Heterotetrameric motifs, Hypervalent iodine, Supramolecular assembly, Zwitterions",
author = "Кукушкин, {Вадим Юрьевич} and Наталья Солдатова and Елизавета Князева and Павел Постников",
year = "2026",
month = jun,
day = "1",
doi = "10.1016/j.ccr.2026.217585",
language = "English",
volume = "556",
journal = "Coordination Chemistry Reviews",
issn = "0010-8545",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Halogen bonding in hypervalent halogen-based systems: Structural determinants and supramolecular diversity

AU - Кукушкин, Вадим Юрьевич

AU - Солдатова, Наталья

AU - Князева, Елизавета

AU - Постников, Павел

PY - 2026/6/1

Y1 - 2026/6/1

N2 - This review presents the first systematic analysis of supramolecular organization in halonium-based systems driven by halogen bonding (XB) interactions. Through comprehensive examination of approximately 600 crystal structures from the Cambridge Structural Database, we establish major principles governing XB-directed assembly patterns across diverse halonium species. Monocationic halonium salts paired with monoanionic counterions constitute over 50% of characterized structures, predominantly forming 0D (85%) and 1D (15%) assemblies. Heterotetrameric motifs—cyclic assemblies comprising two cations and two anions connected through four intermolecular XBs—emerge as the dominant organizational principle (58% of structures). Critically, anion geometry plays the decisive role in directing supramolecular architecture, while cation structure exerts minimal influence. Iodonium (91%) and bromonium derivatives follow consistent assembly trends favoring heterotetrameric motifs, whereas chloronium salts exhibit anomalous behavior. Polycharged systems generate more complex 1D and 2D networks through linking of basic heterotetrameric units. Zwitterionic halonium compounds utilize analogous dimeric motifs as building blocks for extended 1D, 2D, and 3D assemblies, demonstrating promise as building blocks for noncovalent organic frameworks. These findings establish halonium salts as reliable platforms for predictable XB-based crystal engineering.

AB - This review presents the first systematic analysis of supramolecular organization in halonium-based systems driven by halogen bonding (XB) interactions. Through comprehensive examination of approximately 600 crystal structures from the Cambridge Structural Database, we establish major principles governing XB-directed assembly patterns across diverse halonium species. Monocationic halonium salts paired with monoanionic counterions constitute over 50% of characterized structures, predominantly forming 0D (85%) and 1D (15%) assemblies. Heterotetrameric motifs—cyclic assemblies comprising two cations and two anions connected through four intermolecular XBs—emerge as the dominant organizational principle (58% of structures). Critically, anion geometry plays the decisive role in directing supramolecular architecture, while cation structure exerts minimal influence. Iodonium (91%) and bromonium derivatives follow consistent assembly trends favoring heterotetrameric motifs, whereas chloronium salts exhibit anomalous behavior. Polycharged systems generate more complex 1D and 2D networks through linking of basic heterotetrameric units. Zwitterionic halonium compounds utilize analogous dimeric motifs as building blocks for extended 1D, 2D, and 3D assemblies, demonstrating promise as building blocks for noncovalent organic frameworks. These findings establish halonium salts as reliable platforms for predictable XB-based crystal engineering.

KW - Crystal engineering

KW - Halogen bonding

KW - Halonium

KW - Heterotetrameric motifs

KW - Hypervalent iodine

KW - Supramolecular assembly

KW - Zwitterions

UR - https://www.mendeley.com/catalogue/2bcc5c33-0ce2-3d99-a17a-2f40c995b23b/

U2 - 10.1016/j.ccr.2026.217585

DO - 10.1016/j.ccr.2026.217585

M3 - Article

VL - 556

JO - Coordination Chemistry Reviews

JF - Coordination Chemistry Reviews

SN - 0010-8545

M1 - 217585

ER -

ID: 149081548