Bharathi Nuthakki scite author profile

Protic ionic liquids (PILs) are a subset of ionic liquids formed by the equimolar mixing of a Brønsted acid and a Brønsted base. PILs have been categorized as poor ionic liquids. However, the issue of assessing the ionicity of PILs is still a matter of debate. In this work we studied some physicochemical properties of three chosen PILs, namely, ethanolammonium acetate (EOAA), 2-methylbutylammonium formate (2MBAF), and pentylammonium formate (PeAF), at the initial equimolar (stoichiometric) acid/base ratio and in the presence of excess acid and base. DSC phase-transition studies along with NMR, IR, and Raman spectroscopy were performed on the chosen PILs. The results are discussed in terms of the degree of ionization (extent of proton transfer from the Brønsted acid to Brønsted base), and the possibility of the formation of polar 1:1 complexes and larger aggregates in the neat stoichiometric PILs.

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Nickel(II) Complexes with Tetra- and Pentadentate Aminopyridine Ligands: Synthesis, Structure, Electrochemistry, and Reduction to Nickel(I) Species

Kryatov¹,

Mohanraj²,

Tarasov³

et al. 2002

Inorg. Chem.

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A series of nickel(II) complexes with polydentate aminopyridine ligands N,N,N'-tris-[2-(2'-pyridyl)ethyl]ethane-1,2-diamine (L1), N,N,N'-tris-[2-(2'-pyridyl)ethyl]-N'-methylethane-1,2-diamine (L2), and N,N'-bis-[2-(2'-pyridyl)ethyl]-N,N'-dimethylethane-1,2-diamine (L3) were synthesized and characterized by elemental analysis and spectroscopic methods. Single-crystal X-ray diffraction studies showed that the Ni(II) ions have five-coordinate square-pyramidal geometry in [NiL2](ClO(4))(2), similar to that previously found in [NiL1](ClO(4))(2) x CH(3)NO(2) (Hoskins, B. F.; Whillans, F. D.J. Chem. Soc., Dalton Trans. 1975, 657), and square-planar geometry in [NiL3](ClO(4))(2). All three nickel(II) complexes are reduced by sodium borohydride or sodium amalgam in organic solvents to nickel(I) species, which were identified by highly anisotropic EPR spectra at 100 K: g(1) = 2.239, g(2) = 2.199, and g(3) = 2.025 for [NiL1](+); g(axially) = 2.324 and g(radially) = 2.079 for [NiL2](+) and [NiL3](+). Cyclic voltammetry of the nickel(II) complexes in acetonitrile exhibited reversible reduction waves at -1.01 V for [NiL1](2+), -0.91 V for [NiL2](2+), and -0.83 V for [NiL3](2+) versus SCE, potentials which are significantly less negative than those of most previously characterized Ni(II) complexes with nitrogen-only donor atoms. Complexes [NiL1](2+) and [NiL2](2+) showed high catalytic activity in the electroreduction of 1,2-trans-dibromocyclohexane to cyclohexene.

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Vitamin B12-mediated electrochemical cyclopropanation of styrene

Njue

Nuthakki

Vaze

et al. 2001

Electrochemistry Communications

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Surfactant-free emulsion electrosynthesis via power ultrasound: electrocatalytic formation of carbon–carbon bonds

et al. 2002

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Influence of Microemulsions on Enantioselective Synthesis of (R)-Cyclopent-2-enol Catalyzed by Vitamin B₁₂

2006

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The influence of microemulsions on the vitamin B12-catalyzed enantioselective isomerization of 1,2-epoxycyclopentane (1) to form (R)-cyclopent-2-enol (2) has been examined. The reaction was initiated by a reduction of vitamin B12 to the Co(I) form by Zn/NH4Cl. The largest enantiomeric excess (e.e.) in the products was 52% for (R)-2 obtained in a bicontinuous sodium dodecyl sulfate (SDS) microemulsion. A water-in-oil SDS microemulsion gave a poorer percent e.e. probably because of limited catalyst utilization in the water droplets. The influence of the pH of the water phase, the amount of water, and the concentration of vitamin B12 on the enantioselectivity and yield of the reaction was also explored. Results suggest that factors such as higher water content and bicontinuous fluid structure facilitated efficient intermixing of catalyst with reactant to form a key organocobalt intermediate, thus improving enantioselectivity.

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