I. V. Dranka scite author profile

I. V. Dranka

4Publications

25Citation Statements Received

53Citation Statements Given

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100

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Warsaw University of Technology, University of Warsaw, Academy of Sciences of Moldova

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Reactions of ZnR₂ Compounds with Dibenzoyl: Characterisation of the Alkyl‐Transfer Products and a Striking Product‐Inhibition Effect

Dranka

Kubisiak

Justyniak

et al. 2011

Chemistry A European J

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The first systematic theoretical and experimental studies of reaction systems involving ZnR(2) (R=Me, Et or tBu) with dibenzoyl (dbz) as a non-innocent ligand revealed that the character of the metal-bonded R group as well as the ratio of the reagents and the reaction temperature significantly modulate the reaction outcome. DFT calculations showed four stable minima for initial complexes formed between ZnR(2) and dbz and the most stable structure proved to be the 2:1 adduct; among the 1:1 adducts three structural isomers were found of which the most stable complex had the monodentate coordination mode and the chelate complex with the s-cis conformation of the dbz unit appeared to be the least stable form. Interestingly, the reaction involving ZnMe(2) did not lead to any alkylation product, whereas the employment of ZntBu(2) resulted in full conversion of dbz to the O-alkylated product [tBuZn{PhC(O)C(OtBu)Ph}] already at -20 °C. A more complicated system was revealed for the reaction of dbz with ZnEt(2). Treatment of a solution of dbz in toluene with one equivalent of ZnEt(2) at room temperature afforded a mixture of the O- and C-alkylated products [EtZn{PhC(O)C(OEt)Ph}] and [EtZn{OC(Ph)C(O)(Et)Ph}], respectively. The formation of the C-alkylated product was suppressed by decreasing the initial reaction temperature to -20 °C. Moreover, in the case of the dbz/ZnEt(2) system monitoring of the dbz conversion over the entire reaction course revealed a product inhibition effect, which highlights possible participation of multiple equilibria of different zinc alkoxide/ZnEt(2) aggregates. Diffusion NMR studies indicated that dbz forms an adduct with the O-alkylated product, which is a competent species for executing the inhibition of the alkylation event.

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Structural diversity of alkylzinc complexes with pyrrole-based N,O-ligands: from molecular complexes to coordination polymers

et al. 2016

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Thermal anal̀ysis of coordination compounds of cobalt (III) with α-dioxime and guanidine derivatives

Dranka¹,

Shafranskii²,

Kharitonov

1985

Thermochimica Acta

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Effect of the extent of nitriding silicon on the binding properties in the silicon nitride-phosphate binder system

Mikhashchuk

Karpinos

Shayakhmetov

et al. 1988

Powder Metall Met Ceram

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I. V. Dranka

Reactions of ZnR₂ Compounds with Dibenzoyl: Characterisation of the Alkyl‐Transfer Products and a Striking Product‐Inhibition Effect

Structural diversity of alkylzinc complexes with pyrrole-based N,O-ligands: from molecular complexes to coordination polymers

Thermal anal̀ysis of coordination compounds of cobalt (III) with α-dioxime and guanidine derivatives

Effect of the extent of nitriding silicon on the binding properties in the silicon nitride-phosphate binder system

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I. V. Dranka

Reactions of ZnR2 Compounds with Dibenzoyl: Characterisation of the Alkyl‐Transfer Products and a Striking Product‐Inhibition Effect

Structural diversity of alkylzinc complexes with pyrrole-based N,O-ligands: from molecular complexes to coordination polymers

Thermal anal̀ysis of coordination compounds of cobalt (III) with α-dioxime and guanidine derivatives

Effect of the extent of nitriding silicon on the binding properties in the silicon nitride-phosphate binder system

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Reactions of ZnR₂ Compounds with Dibenzoyl: Characterisation of the Alkyl‐Transfer Products and a Striking Product‐Inhibition Effect