Synthesis and Reactivity of Bis(silylene)-Coordinated Calcium and Divalent Lanthanide Complexes

Xiaofei Sun; Thomas Simler; Kevin Reiter; Florian Weigend; Peter W. Roesky

doi:10.1002/chem.202003417

Synthesis and Reactivity of Bis(silylene)-Coordinated Calcium and Divalent Lanthanide Complexes

Xiaofei Sun
, Thomas Simler
, Kevin Reiter
, Florian Weigend
, Peter W. Roesky

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

Abstract

Divalent lanthanide complexes of Eu (1) and Yb (2) coordinated by a chelating pyridine-based bis(silylene) ligand were isolated and fully characterized. Compared to the Eu^II complex 1, the Yb^II complex 2 presents a lower thermal stability, resulting in the activation of one Si^II−N bond and formation of an Yb^III complex (3), which features a unique silylene-pyridyl-amido ligand. The different thermal stability of 1 and 2 points towards reduction-induced cleavage of one Si^II−N bond of the bis(silylene) ligand. Successful isolation of the corresponding redox-inert bis(silylene) Ca^II complex (5) was achieved at low temperature and thermal decomposition into a Ca^II complex (4) bearing the same silylene-pyridyl-amido ligand was identified. In this case, the thermolysis reaction proceeds through another, non-redox induced, mechanism. An alternative higher yielding route to 4 was developed through an in situ generated silylene-pyridyl-amine proligand.

Original language	English
Pages (from-to)	14888-14895
Number of pages	8
Journal	Chemistry - A European Journal
Volume	26
Issue number	65
DOIs	https://doi.org/10.1002/chem.202003417
Publication status	Published - 20 Nov 2020
Externally published	Yes

Keywords

amidinate ligands
calcium
lanthanides
silicon
silylenes

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10.1002/chem.202003417

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title = "Synthesis and Reactivity of Bis(silylene)-Coordinated Calcium and Divalent Lanthanide Complexes",

abstract = "Divalent lanthanide complexes of Eu (1) and Yb (2) coordinated by a chelating pyridine-based bis(silylene) ligand were isolated and fully characterized. Compared to the EuII complex 1, the YbII complex 2 presents a lower thermal stability, resulting in the activation of one SiII−N bond and formation of an YbIII complex (3), which features a unique silylene-pyridyl-amido ligand. The different thermal stability of 1 and 2 points towards reduction-induced cleavage of one SiII−N bond of the bis(silylene) ligand. Successful isolation of the corresponding redox-inert bis(silylene) CaII complex (5) was achieved at low temperature and thermal decomposition into a CaII complex (4) bearing the same silylene-pyridyl-amido ligand was identified. In this case, the thermolysis reaction proceeds through another, non-redox induced, mechanism. An alternative higher yielding route to 4 was developed through an in situ generated silylene-pyridyl-amine proligand.",

keywords = "amidinate ligands, calcium, lanthanides, silicon, silylenes",

author = "Xiaofei Sun and Thomas Simler and Kevin Reiter and Florian Weigend and Roesky, \{Peter W.\}",

note = "Publisher Copyright: {\textcopyright} 2020 The Authors. Published by Wiley-VCH GmbH",

year = "2020",

month = nov,

day = "20",

doi = "10.1002/chem.202003417",

language = "English",

volume = "26",

pages = "14888--14895",

journal = "Chemistry - A European Journal",

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TY - JOUR

T1 - Synthesis and Reactivity of Bis(silylene)-Coordinated Calcium and Divalent Lanthanide Complexes

AU - Sun, Xiaofei

AU - Simler, Thomas

AU - Reiter, Kevin

AU - Weigend, Florian

AU - Roesky, Peter W.

PY - 2020/11/20

Y1 - 2020/11/20

N2 - Divalent lanthanide complexes of Eu (1) and Yb (2) coordinated by a chelating pyridine-based bis(silylene) ligand were isolated and fully characterized. Compared to the EuII complex 1, the YbII complex 2 presents a lower thermal stability, resulting in the activation of one SiII−N bond and formation of an YbIII complex (3), which features a unique silylene-pyridyl-amido ligand. The different thermal stability of 1 and 2 points towards reduction-induced cleavage of one SiII−N bond of the bis(silylene) ligand. Successful isolation of the corresponding redox-inert bis(silylene) CaII complex (5) was achieved at low temperature and thermal decomposition into a CaII complex (4) bearing the same silylene-pyridyl-amido ligand was identified. In this case, the thermolysis reaction proceeds through another, non-redox induced, mechanism. An alternative higher yielding route to 4 was developed through an in situ generated silylene-pyridyl-amine proligand.

AB - Divalent lanthanide complexes of Eu (1) and Yb (2) coordinated by a chelating pyridine-based bis(silylene) ligand were isolated and fully characterized. Compared to the EuII complex 1, the YbII complex 2 presents a lower thermal stability, resulting in the activation of one SiII−N bond and formation of an YbIII complex (3), which features a unique silylene-pyridyl-amido ligand. The different thermal stability of 1 and 2 points towards reduction-induced cleavage of one SiII−N bond of the bis(silylene) ligand. Successful isolation of the corresponding redox-inert bis(silylene) CaII complex (5) was achieved at low temperature and thermal decomposition into a CaII complex (4) bearing the same silylene-pyridyl-amido ligand was identified. In this case, the thermolysis reaction proceeds through another, non-redox induced, mechanism. An alternative higher yielding route to 4 was developed through an in situ generated silylene-pyridyl-amine proligand.

KW - amidinate ligands

KW - calcium

KW - lanthanides

KW - silicon

KW - silylenes

U2 - 10.1002/chem.202003417

DO - 10.1002/chem.202003417

M3 - Article

C2 - 32744765

AN - SCOPUS:85092148049

SN - 0947-6539

VL - 26

SP - 14888

EP - 14895

JO - Chemistry - A European Journal

JF - Chemistry - A European Journal

IS - 65

ER -

Synthesis and Reactivity of Bis(silylene)-Coordinated Calcium and Divalent Lanthanide Complexes

Abstract

Keywords

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