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Type: Article × Subject: Ion pairs ×

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    Hydrogen bonding in ionic liquids probed by linear and nonlinear vibrational spectroscopy
    (Bristol : IOP, 2012) Roth, C.; Chatzipapadopoulos, S.; Kerlé, D.; Friedriszik, F.; Lütgens, M.; Lochbrunner, S.; Kühn, O.; Ludwig, R.
    Three imidazolium-based ionic liquids of the type [Cnmim] [NTf2] with different alkyl chain lengths (n = 1, 2 and 8) at the first position of the imidazolium ring were studied applying infrared, linear Raman and multiplex coherent anti-Stokes Raman scattering spectroscopy. The focus has been on the CH-stretching region of the imidazolium ring, which is supposed to carry information about a possible hydrogen bonding network in the ionic liquid. The measurements are compared with calculations of the corresponding anharmonic vibrational spectra for a cluster of [C 2mim][NTf2] consisting of four ion pairs. The results support the hypothesis of weak hydrogen bonding involving the C(4)-H and C(5)-H groups and somewhat stronger hydrogen bonds of the C(2)-H groups.
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    Hexacyanidosilicates with Functionalized Imidazolium Counterions
    (Weinheim : Wiley-VCH, 2020) Harloff, Jörg; Laatz, Karoline Charlotte; Lerch, Swantje; Schulz, Axel; Stoer, Philip; Strassner, Thomas; Villinger, Alexander
    Functionalized imidazolium cations were combined with the hexacyanidosilicate anion, [Si(CN)6]2–, by salt metathesis reactions with K2[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). Furthermore, the hexa-borane-adduct [Mes(nBu)Im]2{Si[(CN)B(C6F5)3]6}·6CH2Cl2 (7), which is thermally stable up to 215 °C, was obtained from the reaction of 3 with Lewis acidic B(C6F5)3. In CH3CN solution, decomposition of the hexaadduct to the Lewis-acid-base adduct CH3CN–B(C6F5)3 and [(C6F5)3B·(µ-CN)·B(C6F5)3]– was observed. All synthesized compounds were isolated in good yields and were completely characterized including single crystal structure elucidations. © 2020 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.