Deniz Ar scite author profile

The complexes [LtBuNi(OCO‐κ2O,C)]M3[N(SiMe3)2]2 (M=Li, Na, K), synthesized by deprotonation of a nickel formate complex [LtBuNiOOCH] with the corresponding amides M[N(SiMe3)2], feature a NiII−CO22− core surrounded by Lewis‐acidic cations (M+) and the influence of the latter on the behavior and reactivity was studied. The results point to a decrease of CO2 activation within the series Li, Na, and K, which is also reflected in the reactivity with Me3SiOTf leading to the liberation of CO and formation of a Ni−OSiMe3 complex. Furthermore, in case of K+, the {[K3[N(SiMe3)2]2}+ shell around the Ni−CO22− entity was shown to have a large impact on its stabilization and behavior. If the number of K[N(SiMe3)2] equivalents used in the reaction with [LtBuNiOOCH] is decreased from 3 to 0.5, the deprotonated part of the precursor enters a complex reaction sequence with formation of [LtBuNiI(μ‐OOCH)NiILtBu]K and [LtBuNi(C2O4)NiLtBu]. The same reaction at higher concentrations additionally led to the formation of a unique hexanuclear NiII complex containing both oxalate and mesoxalate ([O2C‐CO2‐CO2]4−) ligands.

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High‐spin square planar iron(II) alkali metal siloxide complexes – influence of the alkali metal and reactivity towards O₂ and NO

Beckmann

Kass

Keck

et al. 2021

Zeitschrift anorg allge chemie

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Complexes [L 2 Fe][Li(DME)] 2 , 1(DME), {[L 2 Fe][Na 2 (DME) 3 ]} 1 , 2(DME) and [L 2 Fe][K(DME) 2 ] 2 , 3(DME) were synthesized by deprotonation of LH 2 (LH 2 = O(SiPh 2 OH) 2 ) with the respective alkali metal tert-butoxides followed by recrystallization from DME. It turned out that upon crossing over from Li + via Na + to K + counterions the structures of the high-spin iron(II) complexes are increasingly distorted from a square planar towards a tetrahedral structure so that 3(DME) represents a borderline case, as indicated by the τ-values. The distortions are also reflected in the Mössbauer spectra through the quadrupole splittings. The compounds behave inert in contact with O atom transfer reagents but react rapidly with dioxygen. The reaction rates are too high to be determined even by stopped-flow measurements quantitatively, but qualitatively it emerged that the rates increase from Li to Na to K. Using NO as an O 2 surrogate an NO adduct with an S = 3/2 ground state was isolated where NO is coordinated in an end-on binding mode, formally as a NO À ligand, with a significantly weakened NO bond.

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Electron transfer within β-diketiminato nickel bromide and cobaltocene redox couples activating CO₂

Zimmermann

Kilpatrick

et al. 2021

Chem. Commun.

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Transformation of Formazanate at Nickel(II) Centers to Give a Singly Reduced Nickel Complex with Azoiminate Radical Ligands and Its Reactivity toward Dioxygen

Kilpatrick

Braun‐Cula

et al. 2021

Inorg. Chem.

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The heteroleptic (formazanato)nickel bromide complex LNi(μ-Br) 2 NiL [LH = Mes-NH-NC(p-tol)-NN-Mes] has been prepared by deprotonation of LH with NaH followed by reaction with NiBr 2 (dme). Treatment of this complex with KC 8 led to transformation of the formazanate into azoiminate ligands via N−N bond cleavage and the simultaneous release of aniline. At the same time, the potentially resulting intermediate complex L′ 2 Ni [L′ = HNC(p-tol)-N N-Mes] was reduced by one additional electron, which is delocalized across the π system and the metal center. The resulting reduced complex [L′ 2 Ni]K(18-c-6) has a S = 1 / 2 ground state and a square-planar structure. It reacts with dioxygen via oneelectron oxidation to give the complex L′ 2 Ni, and the formation of superoxide was detected spectroscopically. If oxidizable substrates are present during this process, these are oxygenated/oxidized. Triphenylphosphine is converted to phosphine oxide, and hydrogen atoms are abstracted from TEMPO-H and phenols. In the case of cyclohexene, autoxidations are triggered, leading to the typical radical-chain-derived products of cyclohexene.

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Deniz Ar

Patterned Deposition of Metal‐Organic Frameworks onto Plastic, Paper, and Textile Substrates by Inkjet Printing of a Precursor Solution

Selective Transformation of Nickel‐Bound Formate to CO or C−C Coupling Products Triggered by Deprotonation and Steered by Alkali‐Metal Ions

High‐spin square planar iron(II) alkali metal siloxide complexes – influence of the alkali metal and reactivity towards O₂ and NO

Electron transfer within β-diketiminato nickel bromide and cobaltocene redox couples activating CO₂

Transformation of Formazanate at Nickel(II) Centers to Give a Singly Reduced Nickel Complex with Azoiminate Radical Ligands and Its Reactivity toward Dioxygen

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Deniz Ar

Patterned Deposition of Metal‐Organic Frameworks onto Plastic, Paper, and Textile Substrates by Inkjet Printing of a Precursor Solution

Selective Transformation of Nickel‐Bound Formate to CO or C−C Coupling Products Triggered by Deprotonation and Steered by Alkali‐Metal Ions

High‐spin square planar iron(II) alkali metal siloxide complexes – influence of the alkali metal and reactivity towards O2 and NO

Electron transfer within β-diketiminato nickel bromide and cobaltocene redox couples activating CO2

Transformation of Formazanate at Nickel(II) Centers to Give a Singly Reduced Nickel Complex with Azoiminate Radical Ligands and Its Reactivity toward Dioxygen

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Product

Resources

About

High‐spin square planar iron(II) alkali metal siloxide complexes – influence of the alkali metal and reactivity towards O₂ and NO

Electron transfer within β-diketiminato nickel bromide and cobaltocene redox couples activating CO₂