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In the reaction of 1-ethyl-3-methylimidazolium acetate [C2C1Im][OAc] ionic liquid with carbon dioxide at 125 °C and 10 MPa, not only the known N-heterocyclic carbene (NHC)-CO2 adduct I, but also isomeric aNHC-CO2 adducts II and III were obtained. The abnormal NHC-CO2 adducts are stabilized by the presence of the polarizing basic acetate anion, according to static DFT calculations and ab initio molecular dynamics studies. A further possible reaction pathway is facilitated by the high basicity of the system, deprotonating the initially formed NHC-CO2 adduct I, which can then be converted in the presence of the excess of CO2 to the more stable 2-deprotonated anionic abnormal NHC-CO2 adduct via the anionic imidazolium-2,4-dicarboxylate according to DFT calculations on model compounds. This suggests a generalizable pathway to abnormal NHC complex formation.

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Interactions and Chemical Transformations of Coronene Inside and Outside Carbon Nanotubes

Botka

Füstös

Tóháti

et al. 2013

Small

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Direct asymmetric reduction of levulinic acid to gamma-valerolactone: synthesis of a chiral platform molecule

et al. 2015

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Levulinic acid was directly converted to optically active (S)--gamma--valerolactone, a proposed biomass--based chiral platform molecule. By using SEGPHOS ligand--modified ruthenium catalyst in methanol as co--solvent, eventually, 100% chemoselectivity, and 82% enantioselectivity were achieved. The effect of catalyst composition and reaction parameters on the activity and selectivity were investigated in details. The conversion of a "real" biomass derived levulinic acid to optically active GVL without decreasing the enantioselectivty was also demonstrated.

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Investigation of fullerene encapsulation in carbon nanotubes using a complex approach based on vibrational spectroscopy

Botos

Khlobystov

Botka

et al. 2010

Physica Status Solidi (b)

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For carbon nanotubes filled with fullerenes (''peapods''), it is a key issue to find an analytical method that distinguishes the molecules inside the nanotube from those adsorbed on its surface. High-resolution transmission electron microscopy (HRTEM) detects both encapsulated and adsorbed molecules which are large enough (e.g., fullerenes), but being a localprobe method, it cannot be applied to large amounts of sample. In Raman spectroscopy, the empirical rules for line shifts and splitting are nanotube-type dependent and often ambiguous. We prepared C 60 peapods by nano-extraction using supercritical CO 2 as a solvent, and subsequently removed the adsorbed fullerene molecules by washing the samples. We analyzed the samples by the combination of HRTEM, Raman, and midinfrared attenuated total reflectance (MIR-ATR) spectroscopy. Although the TEM images proved that the nanotubes were filled with fullerenes, we did not observe any shift in the fullerene's A g (2) Raman mode compared to C 60 crystals. ATR spectra, on the other hand, were found to detect only the adsorbed molecules. Therefore, the combination of the two methods provide good basis for determining the success of nanotube filling by spectroscopy alone.

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Edit Székely

An Abnormal N‐Heterocyclic Carbene–Carbon Dioxide Adduct from Imidazolium Acetate Ionic Liquids: The Importance of Basicity

Interactions and Chemical Transformations of Coronene Inside and Outside Carbon Nanotubes

Direct asymmetric reduction of levulinic acid to gamma-valerolactone: synthesis of a chiral platform molecule

Investigation of fullerene encapsulation in carbon nanotubes using a complex approach based on vibrational spectroscopy

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