Dilithium and Magnesium Alkanediides and 1‐Oxaalkanediides

Fischer, R.; Görls, Helmar; Krieck, Sven; Westerhausen, Matthias

doi:10.1002/zaac.201700222

Cited by 11 publications

(19 citation statements)

References 151 publications

(139 reference statements)

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“…Crystallization of 2'-Br from a solvent mixture of DMF and dioxane led to the precipitation of [{(dmf) 6 Mg}Br 2 ] (A). Crystallization of 2'-Br from a solvent mixture of DMF and dioxane led to the precipitation of [{(dmf) 6 Mg}Br 2 ] (A).…”

Section: Substitution Of DX In [Mgbr 2 (Dx) 2 ] 1 (2'-br)mentioning

confidence: 99%

“…Traces of water 6 and 252.1 pm). With very few exceptions, in which the Schlenk equilibrium lies completely on the side of heteroleptic RMgX complexes (such as [(Me 3 Si) 2 C{MgBr(dx) 2 } 2 ]), [6] the dioxane method provides advantageous access to soluble R 2 M compounds. Extraction of [MgBr 2 (dx) 2 ] 1 (2'-Br) with hot 1,2-dimethoxyethane (dme) only allowed the isolation of the already known [cis-Br 2 Mg(dme) 2 ] (C).…”

Section: Substitution Of DX In [Mgbr 2 (Dx) 2 ] 1 (2'-br)mentioning

confidence: 99%

“…[6] Ten years ago, the influence of dioxane on the Schlenk equilibrium was studied more explicitly. It proves to be very beneficial to allow the MgX 2containing precipitate to age overnight at room temperature.…”

Section: Introductionmentioning

confidence: 99%

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Structure–Solubility Relationship of 1,4‐Dioxane Complexes of Di(hydrocarbyl)magnesium

Fischer

Görls

Meisinger

et al. 2019

Chemistry A European J

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Systematic variation of the 1,4-dioxane (dx) concentration during the precipitation of sparingly soluble [MgBr 2 (dx) 2 ] from ethereal Grignard solutions of RMgBr has allowed the structural investigation of crystallized [R 2 Mg(dx) n ] (n = 1, 1.5, 2, and 3), which form during this dioxane method, depending on the bulkiness of R. The numbering of the complexes explored in this study is based on the number n of dioxane molecules per magnesium atom, followed by the substituent R; an apostrophe denotes coordination polymers. The following derivatives were studied by X-ray crystal-structure determination and NMR spectroscopy :(1.5-oTol), and [(Me 3 Si-CC) 2 Mg(dx) 1.5 ] 1 (1.5'-C 2 SiMe 3 ); n = 2: [tBu 2 Mg(dx) 2 ] (2-tBu) and [oTol 2 Mg(dx) 2 ] (2-oTol); n = 3: [Ph 2 Mg(dx) 3 ] (3-Ph). In the structure types 1', 1.5, and 2, the magnesium atom exhibits the coordination number 4, whereas pentacoordinate metal atoms are observed in types 3 and 1.5'. The structure type 2' is realized for [(Ph-C C) 2 Mg(dx) 2 ] 1 (2'-C 2 Ph), [MgCl 2 (dx) 2 ] 1 (2'-Cl), and [MgBr 2 (dx) 2 ] 1 (2'-Br) with hexacoordinate metal atoms. The solubility of the dioxane adducts in common organic solvents strongly depends on the degree of aggregation with the solubility decreasing from molecular to strand to layer structures.[a] Dr.Scheme 2. Dioxane method to shift the Schlenk equilibrium of organylmagnesium halides toward soluble [R 2 Mg(dx) n ] and insoluble [MgX 2 (dx) 2 ] 1 by substitution of the Lewis base L (e.g., diethyl ether or thf) by 1,4-dioxane (dx).Scheme 3. Structural diversity of hitherto known 1,4-dioxane adducts of diorganylmagnesium complexes authenticated by X-ray crystal-structure determinations.

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Section: Substitution Of DX In [Mgbr 2 (Dx) 2 ] 1 (2'-br)mentioning

confidence: 99%

Section: Substitution Of DX In [Mgbr 2 (Dx) 2 ] 1 (2'-br)mentioning

confidence: 99%

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Structure–Solubility Relationship of 1,4‐Dioxane Complexes of Di(hydrocarbyl)magnesium

Fischer

Görls

Meisinger

et al. 2019

Chemistry A European J

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“…Indeed there are reports, fore xample, on lithium methylidene (also termed lithium methylene) [Li 2 CH 2 ] n ,but the preparation of this highly reactive compound is not straightforward and the amorphous/polymeric nature causes solubility issues which further complicate its use in metathesis reactions. [71][72][73][74][75] The availability of Grignard and dialkylmagnesium compounds led to early attempts to synthesize Mg II -alkylidenes pecies and first reports on heteroleptic Mg methylidene species [CH 2 (MgBr) 2 ]a ppeared in 1926. [76] However,t his di-Grignard compound, which can be preparedu sing dibromomethane CH 2 Br 2 and Mg 0 or Mg amalgam (route c), attracted only sporadic attention.…”

Section: Alkylidenesmentioning

confidence: 99%

Chasing Multiple Bonding Interactions between Alkaline‐Earth Metals and Main‐Group Fragments

Wolf

Anwander

2019

Chemistry A European J

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Formally dianionic ligands such as alkylidenes or organoimidos play a major role in the organometallic chemistry of transition metals and are an emerging topical area of f‐element chemistry. The pursuit and development of main‐group‐metal congeners has been tackled sporadically but is clearly lacking behind. The pronounced ionic bonding in particular, prevailing in alkali and alkaline‐earth (Ae) metal derivatives, proved cumbersome. Recent substantial progress in the respective field of divalent Ae chemistry has been triggered by the implementation of new synthesis strategies involving new AeII precursors and tailor‐made ligands. The main emphasis of this Minireview will be on the synthesis and reactivity of well‐defined Group 2 alkylidenes, organoimides, silylenes, and phosphandiides.

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“…The bifunctional synthon 1,4‐dilithiobutane enables the syntheses of metallacycles and metalates with the butane‐1,4‐diide acting as a chelate base. Crystallographically authenticated homoleptic metalates have been reported for chromium(II), nickel(II), platinum(II), magnesium(II), and zinc(II) . In order to study the dependency of the molecular structures on the oxidation state of the metal we also prepared and investigated the yttrium(III) congener .…”

Section: Introductionmentioning

confidence: 99%

Syntheses and Molecular Structures of [(thf)₄Li] [{(thf)Li}M(C₄H₈)₃] (M = Zr, Hf) and Their Solution Behavior

Fischer

Schmidt

Younis

et al. 2020

Zeitschrift anorg allge chemie

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The reaction of MCl4(thf)2 (M = Zr, Hf) with 1,4‐dilitiobutane in diethyl ether at –25 °C or at 0 °C with a molar ratio of 1 : 3 yields the homoleptic “ate” complexes [(thf)4Li] [{(thf)Li}M(C4H8)3] 1‐Zr (M = Zr) and 1‐Hf (M = Hf). The crystalline compounds form ion lattices with solvent‐separated [(thf)4Li]+ cations and [{(thf)Li}M(C4H8)3]– anions. The NMR spectra at –20 °C show magnetic equivalence of the M–CH2 and of the β‐CH2 groups of the butane‐1,4‐diide ligands on the NMR time scale. Analogous reactions of MCl4(thf)2 with 1,4‐dilithiobutane with a molar ratio of 1 : 2 proceed unclear. However, single crystals of [Li(thf)4] [HfCl5(thf)] (2) can be isolated with the hafnium atom in a distorted octahedral coordination sphere of five chloro and one thf ligand. NMR spectra allow to elucidate the time‐dependent degradation of 1‐Hf and 1‐Zr in THF and toluene at 25 °C via THF cleavage. Addition of tmeda to a solution of 1‐Zr allows the isolation of intermediately formed [{(tmeda)Li}2Zr(nBu)2(C4H8)2] (3).

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Dilithium and Magnesium Alkanediides and 1‐Oxaalkanediides

Cited by 11 publications

References 151 publications

Structure–Solubility Relationship of 1,4‐Dioxane Complexes of Di(hydrocarbyl)magnesium

Structure–Solubility Relationship of 1,4‐Dioxane Complexes of Di(hydrocarbyl)magnesium

Chasing Multiple Bonding Interactions between Alkaline‐Earth Metals and Main‐Group Fragments

Syntheses and Molecular Structures of [(thf)₄Li] [{(thf)Li}M(C₄H₈)₃] (M = Zr, Hf) and Their Solution Behavior

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Dilithium and Magnesium Alkanediides and 1‐Oxaalkanediides

Cited by 11 publications

References 151 publications

Structure–Solubility Relationship of 1,4‐Dioxane Complexes of Di(hydrocarbyl)magnesium

Structure–Solubility Relationship of 1,4‐Dioxane Complexes of Di(hydrocarbyl)magnesium

Chasing Multiple Bonding Interactions between Alkaline‐Earth Metals and Main‐Group Fragments

Syntheses and Molecular Structures of [(thf)4Li] [{(thf)Li}M(C4H8)3] (M = Zr, Hf) and Their Solution Behavior

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Syntheses and Molecular Structures of [(thf)₄Li] [{(thf)Li}M(C₄H₈)₃] (M = Zr, Hf) and Their Solution Behavior