Philip Stoer scite author profile

Starting from fluoridosilicate precursors in neat cyanotrimethylsilane, Me3Si−CN, a series of different ammonium salts [R3NMe]+ (R=Et, nPr, nBu) with the novel [SiF(CN)5]2− and [Si(CN)6]2− dianions was synthesized in facile, temperature controlled F−/CN− exchange reactions. Utilizing decomposable, non‐innocent cations, such as [R3NH]+, it was possible to generate metal salts of the type M2[Si(CN)6] (M+=Li+, K+) via neutralization reactions with the corresponding metal hydroxides. The ionic liquid [BMIm]2[Si(CN)6] (m.p.=72 °C, BMIm=1‐butyl‐3‐methylimidazolium) was obtained by a salt metathesis reaction. All the synthesized salts could be isolated in good yields and were fully characterized.

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Salts of HCN‐Cyanide Aggregates: [CN(HCN)₂]⁻ and [CN(HCN)₃]⁻

Bläsing

Harloff

Schulz

et al. 2020

Angew Chem Int Ed

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Although pure hydrogen cyanide can spontaneously polymerize or even explode, when initiated by small amounts of bases (e.g. CN−), the reaction of liquid HCN with [WCC]CN (WCC=weakly coordinating cation=Ph4P, Ph3PNPPh3=PNP) was investigated. Depending on the cation, it was possible to extract salts containing the formal dihydrogen tricyanide [CN(HCN)2]− and trihydrogen tetracyanide ions [CN(HCN)3]− from liquid HCN when a fast crystallization was carried out at low temperatures. X‐ray structure elucidation revealed hydrogen‐bridged linear [CN(HCN)2]− and Y‐shaped [CN(HCN)3]− molecular ions in the crystal. Both anions can be considered members of highly labile cyanide‐HCN solvates of the type [CN(HCN)n]− (n=1, 2, 3 …) as well as formal polypseudohalide ions.

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Hexacyanidosilicates with Functionalized Imidazolium Counterions

et al. 2020

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Functionalized imidazolium cations were combined with the hexacyanidosilicate anion, [Si(CN) 6 ] 2-, by salt metathesis reactions with K 2 [Si(CN) 6 ], yielding novel ionic compounds of the general formula [R-Ph(nBu)Im] 2 [Si(CN) 6 ] {R = 2-Me (1), 4-Me (2), 2,4,6-Me = Mes (3), 2-MeO (4), 2,4-F (5), 4-Br (6); Im = imidazolium}. All synthesized imidazolium hexacyanidosilicates decompose upon thermal treatment above 95°C (96-164°C).

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Pseudo Halide Chemistry in Ionic Liquids with Decomposable Anions

Harloff

Schulz

Stoer

et al. 2019

Zeitschrift anorg allge chemie

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Several pseudohalide containing ionic liquids with quarternary ammonium counter cations of the general formula [R3MeN]X [R = ethyl (1X), n‐butyl (2X) with X– = CN–, N3–, OCN–, and SCN–] were synthesized by decomposition of the corresponding trialkylammonium methylcarbonate in the reaction with Me3Si–X. We also treated 2CN with OP(OMe)3, yielding [nBu3MeN][O2P(OMe)2] and acetonitrile (Me‐CN). The double salt [nBu3MeN]2{[B(OMe)3(CN)](CN)} was obtained from the reaction of 2CN with B(OMe)3, featuring the formation of the monocyanotrimethoxyborate anion, [B(OMe)3(CN)]–, co‐crystallized with [nBu3MeN]CN. [nBu3MeN]2{[B(OMe)3(CN)](CN)} was fully characterized including structure elucidation.

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Trapping of Brønsted acids with a phosphorus-centered biradicaloid – synthesis of hydrogen pseudohalide addition products

et al. 2020

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Philip Stoer

Cyanidosilicates—Synthesis and Structure

Salts of HCN‐Cyanide Aggregates: [CN(HCN)₂]⁻ and [CN(HCN)₃]⁻

Hexacyanidosilicates with Functionalized Imidazolium Counterions

Pseudo Halide Chemistry in Ionic Liquids with Decomposable Anions

Trapping of Brønsted acids with a phosphorus-centered biradicaloid – synthesis of hydrogen pseudohalide addition products

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About

Philip Stoer

Cyanidosilicates—Synthesis and Structure

Salts of HCN‐Cyanide Aggregates: [CN(HCN)2]− and [CN(HCN)3]−

Hexacyanidosilicates with Functionalized Imidazolium Counterions

Pseudo Halide Chemistry in Ionic Liquids with Decomposable Anions

Trapping of Brønsted acids with a phosphorus-centered biradicaloid – synthesis of hydrogen pseudohalide addition products

Contact Info

Product

Resources

About

Salts of HCN‐Cyanide Aggregates: [CN(HCN)₂]⁻ and [CN(HCN)₃]⁻