Early Transition Metal Complexes of Polydentate and Macrocyclic Thio- and Seleno-Ethers

Levason, William; Reid, Gillian

doi:10.3184/030823402103170501

Cited by 18 publications

(12 citation statements)

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“…While thioether coordination chemistry is dominated by complexes involving late transition metals in medium oxidation states, we and others have shown that under appropriate experimental conditions these soft and modest σ-donor ligands can also form complexes with hard, medium and high oxidation state early transition metal ions, [1] including for example Sc III , [2] La III and U III [3] complexes with the trithioether macrocycle [9]aneS 3 , and Ti III,IV and Cr III complexes with both acyclic and macrocyclic thioethers. [4][5][6][7] We have also established that the choice of chalcogenoether ligand architecture plays a very important role in facilitating the stabilisation of these hard/ soft metal/ligand combinations, with dimethylene-linkages between the S atoms leading to increased stability, and macrocyclic frameworks further stabilising the complexes.…”

Section: Introductionmentioning

confidence: 99%

Tungsten(VI) and Molybdenum(VI) Complexes with Soft Thioether Ligand Coordination – Synthesis, Spectroscopic and Structural Studies

et al. 2007

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Section: Introductionmentioning

confidence: 99%

Tungsten(VI) and Molybdenum(VI) Complexes with Soft Thioether Ligand Coordination – Synthesis, Spectroscopic and Structural Studies

et al. 2007

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“…56 The tripodal MeC(CH2EMe)3 (E = S or Se) gave 1:1 complexes on reaction with [MCl4(Me2S)2]; the complexes were too poorly soluble to grow crystals or for NMR studies and it is unclear if they are six-or seven coordinate. 50 The macrocyclic [9]aneS3 and [10]aneS3 also form poorly soluble [MCl4([n]aneS3)] complexes, but in this case the X-ray crystal structure of [ZrCl4( [9]aneS3)] was obtained ( Fig. 24) and shown to be seven-coordinate with the macrocycle  3 -coordinated.…”

Section: F-block Metal Chalcogenoether Chemistrymentioning

confidence: 99%

“…The latter will not be easy, and very meticulous care over the reaction conditions and thorough characterisation of the complexes will be essential. The problems of identifying the products of CE bond fission and ligand rearrangement observed in Nb, Ta and Mo 10,76,80,81 systems are likely to be even more challenging in the telluroether chemistry.…”

Section: Molybdenum and Tungstenmentioning

confidence: 99%

“…41 The structure (Fig. 18) The trithia macrocycles, [9]aneS3 and [10]aneS3, form 1:1 complexes with TiX4 (X = Cl, Br or I). 50,51 Unfortunately, all the complexes are insoluble in, or decomposed by, common NMR solvents and as all attempts to obtain crystals have failed, it is unclear if these complexes are six-or seven-coordinate, 47,55 In contrast to the titanium systems where only six-coordination has been observed with chalcogenoether ligands irrespective of type, zirconium and hafnium tetrachlorides form both 1:1 and 1:2 complexes with bidentate chalcogenoethers, the former using a stoichiometric amount of ligand, the latter a 1:3 molar ratio.…”

Section: F-block Metal Chalcogenoether Chemistrymentioning

confidence: 99%

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Developments in the chemistry of the hard early metals (Groups 1–6) with thioether, selenoether and telluroether ligands

2016

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The coordination chemistry of neutral thio-, seleno-and telluroether ligands towards the hard s-block, f-block and higher oxidation state early d-block metals has developed significantly over the 15 or so years. This has revealed several hitherto unknown classes of complexes and new insights into the chemistries of these hard-soft metal-ligand combinations. This Perspective describes the synthetic routes used to access such complexes and draws out their key structural features and spectroscopic properties. Where appropriate, applications of these species are also highlighted, including their use as single source precursors for the chemical vapour deposition of semiconducting metal chalcogenide thin films and as pre-catalysts for olefin polymerisation reactions. IntroductionThioether and selenoether ligands, which are neutral sulfur and selenium donors respectively, were for many years viewed as modest σ-donor ligands that formed complexes with the softer later d-block elements in low or medium oxidation states, or with post transition metals such as silver or mercury.1,2Complexes of the early d-block metals were mostly limited to low valent organometallics or carbonyls. The chemistry of telluroethers was very little explored, in major part a reflection of their limited availability and, for the alkyl telluroethers in particular, their extremely malodorous nature. 2,3The R2Te ligands are also oxygen sensitive (in contrast to the air stable R2S or R2Se), modest reducing agents and prone to cleavage of the CTe bond upon reaction with some metal centres. Even today, their chemistry remains much less extensive than that of their lighter analogues. 4 Major developments in the syntheses and coordination chemistry of macrocyclic thioethers considerably extended the range and stability of complexes containing metal centres across the d-block. More recent work has resulted in complexes of chalcogenoethers with many of the p-block elements,

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“…The chemistry of medium and high oxidation state molybdenum and tungsten centres with neutral sulfur of oxygen donor ligands remains little studied. [74][75][76] (2) were synthesized by an analogous method to the preparation of WO 2 Cl 2 (DME) [76] (Scheme 1). (2).…”

Section: Scope and Objectives Of This Dissertationmentioning

confidence: 99%

Syntheses, Structures, Electrochemical and Oxygen Atom Transfer Properties of Molybdenum and Tungsten Complexes with Sulfur and Selenium Containing Ligands

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Early Transition Metal Complexes of Polydentate and Macrocyclic Thio- and Seleno-Ethers

Abstract: Recent work on the syntheses, structures and properties of complexes of polydentate and macrocyclic thio-and seleno-ether ligands with Groups 3-6 metals in positive oxidation states (≥3) is described.

Cited by 18 publications

References 47 publications

Tungsten(VI) and Molybdenum(VI) Complexes with Soft Thioether Ligand Coordination – Synthesis, Spectroscopic and Structural Studies

Tungsten(VI) and Molybdenum(VI) Complexes with Soft Thioether Ligand Coordination – Synthesis, Spectroscopic and Structural Studies

Developments in the chemistry of the hard early metals (Groups 1–6) with thioether, selenoether and telluroether ligands

Syntheses, Structures, Electrochemical and Oxygen Atom Transfer Properties of Molybdenum and Tungsten Complexes with Sulfur and Selenium Containing Ligands

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