A new look at the chalcogen bond: π-hole-based chalcogen (Se, Te) bonding which does not include a σ-hole interaction

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A new look at the chalcogen bond: π-hole-based chalcogen (Se, Te) bonding which does not include a σ-hole interaction. / Katlenok, Eugene A. ; Kuznetsov, Maxim L. ; Semenov, Nikolay A. ; Bokach, Nadezhda A. ; Kukushkin, Vadim Yu. .

In: Inorganic Chemistry Frontiers, Vol. 10, No. 10, 2023, p. 3065-3081.

Research output: Contribution to journal › Article › peer-review

BibTeX

@article{6c5a61eb10b74f0c83a219bb13282f81,

title = "A new look at the chalcogen bond: π-hole-based chalcogen (Se, Te) bonding which does not include a σ-hole interaction",

abstract = "The solid-state structures of co-crystals of chalcogenadiazoles (ChDAs) with planar half-lantern PtII2 and mononuclear PtII complexes exhibit short Ch⋯PtII (Ch = Se, Te) contacts that occur between a metal site and the ChDA. The structures demonstrate a unique geometric feature whereby the two deep σ-holes of ChDA are turned away from a dz2-nucleophilic PtII site. A comprehensive DFT study (PBE0-D3BJ; computational tools QTAIM, ELF, IGMH, MEP, CDF, ETS-NOCV, and SAPT), focused on the analysis of these puzzling structural features, revealed that a platinum(II) center does not interact with the deep σ-holes of ChDA but is involved in other types of interactions including, in particular, with a π-hole at the Ch site. The unusual linkage between a platinum(II) atom and ChDA is driven by the combined action of the Pt → π-hole on Ch bonding (30–41% of the total interaction energy) and other C⋯C/C⋯S π-hole interactions involving the ChDA and ligand's arenes. The effect of the combined action of these interactions is so expressed that the Ch⋯Pt interaction structurally mimics a semicoordination bond. However, significant dz2(Pt) → π*(ChDA) charge transfer allows the assignment of the Ch⋯Pt interactions to the chalcogen bonding.",

author = "Katlenok, {Eugene A.} and Kuznetsov, {Maxim L.} and Semenov, {Nikolay A.} and Bokach, {Nadezhda A.} and Kukushkin, {Vadim Yu.}",

year = "2023",

doi = "10.1039/d3qi00087g",

language = "English",

volume = "10",

pages = "3065--3081",

journal = "Inorganic Chemistry Frontiers",

issn = "2052-1545",

publisher = "Royal Society of Chemistry",

number = "10",

}

RIS

TY - JOUR

T1 - A new look at the chalcogen bond: π-hole-based chalcogen (Se, Te) bonding which does not include a σ-hole interaction

AU - Katlenok, Eugene A.

AU - Kuznetsov, Maxim L.

AU - Semenov, Nikolay A.

AU - Bokach, Nadezhda A.

AU - Kukushkin, Vadim Yu.

PY - 2023

Y1 - 2023

N2 - The solid-state structures of co-crystals of chalcogenadiazoles (ChDAs) with planar half-lantern PtII2 and mononuclear PtII complexes exhibit short Ch⋯PtII (Ch = Se, Te) contacts that occur between a metal site and the ChDA. The structures demonstrate a unique geometric feature whereby the two deep σ-holes of ChDA are turned away from a dz2-nucleophilic PtII site. A comprehensive DFT study (PBE0-D3BJ; computational tools QTAIM, ELF, IGMH, MEP, CDF, ETS-NOCV, and SAPT), focused on the analysis of these puzzling structural features, revealed that a platinum(II) center does not interact with the deep σ-holes of ChDA but is involved in other types of interactions including, in particular, with a π-hole at the Ch site. The unusual linkage between a platinum(II) atom and ChDA is driven by the combined action of the Pt → π-hole on Ch bonding (30–41% of the total interaction energy) and other C⋯C/C⋯S π-hole interactions involving the ChDA and ligand's arenes. The effect of the combined action of these interactions is so expressed that the Ch⋯Pt interaction structurally mimics a semicoordination bond. However, significant dz2(Pt) → π*(ChDA) charge transfer allows the assignment of the Ch⋯Pt interactions to the chalcogen bonding.

AB - The solid-state structures of co-crystals of chalcogenadiazoles (ChDAs) with planar half-lantern PtII2 and mononuclear PtII complexes exhibit short Ch⋯PtII (Ch = Se, Te) contacts that occur between a metal site and the ChDA. The structures demonstrate a unique geometric feature whereby the two deep σ-holes of ChDA are turned away from a dz2-nucleophilic PtII site. A comprehensive DFT study (PBE0-D3BJ; computational tools QTAIM, ELF, IGMH, MEP, CDF, ETS-NOCV, and SAPT), focused on the analysis of these puzzling structural features, revealed that a platinum(II) center does not interact with the deep σ-holes of ChDA but is involved in other types of interactions including, in particular, with a π-hole at the Ch site. The unusual linkage between a platinum(II) atom and ChDA is driven by the combined action of the Pt → π-hole on Ch bonding (30–41% of the total interaction energy) and other C⋯C/C⋯S π-hole interactions involving the ChDA and ligand's arenes. The effect of the combined action of these interactions is so expressed that the Ch⋯Pt interaction structurally mimics a semicoordination bond. However, significant dz2(Pt) → π*(ChDA) charge transfer allows the assignment of the Ch⋯Pt interactions to the chalcogen bonding.

UR - https://www.mendeley.com/catalogue/ff38b7c7-0fd1-3e72-87c7-1d5cb0b49a08/

U2 - 10.1039/d3qi00087g

DO - 10.1039/d3qi00087g

M3 - Article

VL - 10

SP - 3065

EP - 3081

JO - Inorganic Chemistry Frontiers

JF - Inorganic Chemistry Frontiers

SN - 2052-1545

IS - 10

ER -

ID: 104789823