Sung Yun Hong scite author profile

Room temperature ionic liquids (RTILs) are proposed as the alternative solvents for the acetylene separation in ethylene generated from the naphtha cracking process. The solubility behavior of acetylene in RTILs was examined using a linear solvation energy relationship based on Kamlet-Taft solvent parameters including the hydrogen-bond acidity or donor ability (α), the hydrogen-bond basicity or acceptor ability (β), and the polarity/polarizability (π*). It is found that the solubility of acetylene linearly correlates with β value and is almost independent of α or π*. The solubility of acetylene in RTILs increases with increasing hydrogen-bond acceptor (HBA) ability of the anion, but is little affected by the nature of the cation. Quantum mechanical calculations demonstrate that the acidic proton of acetylene specifically forms hydrogen bond with a basic oxygen atom on the anion of a RTIL. On the other hand, although C-H···π interaction is plausible, all optimized structures indicate that the acidic protons on the cation do not specifically associate with the π cloud of acetylene. Thermodynamic analysis agrees well with the proposed correlation: the higher the β value of a RTIL is, the more negative the enthalpy of acetylene absorption in the RTIL is.

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CO₂ Absorption and Desorption in an Aqueous Solution of Heavily Hindered Alkanolamine: Structural Elucidation of CO₂-Containing Species

Choi

Jeong

et al. 2014

Environ. Sci. Technol.

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The pathways for the CO2 absorption and desorption in an aqueous solution of a heavily hindered alkanolamine, 2-(t-butylamino)ethanol (TBAE) were elucidated by X-ray crystallographic and (13)C NMR spectroscopic analysis. In the early stage of the CO2 absorption, the formation of carbonate species ([TBAEH]2CO3) was predominant, along with the generation of small amounts of zwitterionic species. With the progress of the absorption, the carbonate species was rapidly transformed into bicarbonate species ([TBAEH]HCO3), and the amounts of the zwitterionic species increased gradually. During desorption at elevated temperature in the absence of CO2, [TBAEH]HCO3 was found to transform into [TBAEH]2CO3, where CO3(2-) strongly interacts with two [TBAEH](+) via hydrogen bondings.

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Facilitated Ion Transport in Smectic Ordered Ionic Liquid Crystals

et al. 2016

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Nitrile-functionalized tertiary amines as highly efficient and reversible SO2 absorbents

Hong

Kim

et al. 2014

Journal of Hazardous Materials

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Isolation and Structural Characterization of Bicarbonate and Carbonate Species Formed During CO2 Absorption/Desorption By a Hindered Alkanolamine

et al. 2014

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Carboxylate‐Assisted Formation of Alkylcarbonate Species from CO₂ and Tetramethylammonium Salts with a β‐Amino Acid Anion

et al. 2013

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Tetramethylammonium-based molten salts bearing a β-amino acid anion (TMAAs) are synthesized through Michael addition reactions of amines with methyl acrylate followed by hydrolysis and subsequent neutralization by using aqueous tetramethylammonium hydroxide. The CO(2) capture performances of the TMAAs are evaluated and are shown to interact with CO(2) in a 1:1 mode in both water and alcohol. FTIR and (13)C NMR spectroscopic studies on the interactions of TMAAs with CO(2) indicate that the type of CO(2) adduct varies with the solvent used. When water is used as the solvent, a bicarbonate species is produced, whereas hydroxyethylcarbonate and methylcarbonate species are generated in ethylene glycol and methanol, respectively. Computational calculations show that the carboxylate groups of TMAAs contribute towards the formation and stabilization of 1:1 CO(2) adducts through hydrogen bonding interactions with the hydrogen atoms of the amino groups.

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Sung Yun Hong

Ether-functionalized ionic liquids as highly efficient SO2 absorbents

Steric hindrance-induced zwitterionic carbonates from alkanolamines and CO2: highly efficient CO2 absorbents

Correlation between Hydrogen Bond Basicity and Acetylene Solubility in Room Temperature Ionic Liquids

CO₂ Absorption and Desorption in an Aqueous Solution of Heavily Hindered Alkanolamine: Structural Elucidation of CO₂-Containing Species

Facilitated Ion Transport in Smectic Ordered Ionic Liquid Crystals

Nitrile-functionalized tertiary amines as highly efficient and reversible SO2 absorbents

Isolation and Structural Characterization of Bicarbonate and Carbonate Species Formed During CO2 Absorption/Desorption By a Hindered Alkanolamine

Carboxylate‐Assisted Formation of Alkylcarbonate Species from CO₂ and Tetramethylammonium Salts with a β‐Amino Acid Anion

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Sung Yun Hong

Ether-functionalized ionic liquids as highly efficient SO2 absorbents

Steric hindrance-induced zwitterionic carbonates from alkanolamines and CO2: highly efficient CO2 absorbents

Correlation between Hydrogen Bond Basicity and Acetylene Solubility in Room Temperature Ionic Liquids

CO2 Absorption and Desorption in an Aqueous Solution of Heavily Hindered Alkanolamine: Structural Elucidation of CO2-Containing Species

Facilitated Ion Transport in Smectic Ordered Ionic Liquid Crystals

Nitrile-functionalized tertiary amines as highly efficient and reversible SO2 absorbents

Isolation and Structural Characterization of Bicarbonate and Carbonate Species Formed During CO2 Absorption/Desorption By a Hindered Alkanolamine

Carboxylate‐Assisted Formation of Alkylcarbonate Species from CO2 and Tetramethylammonium Salts with a β‐Amino Acid Anion

Contact Info

Product

Resources

About

CO₂ Absorption and Desorption in an Aqueous Solution of Heavily Hindered Alkanolamine: Structural Elucidation of CO₂-Containing Species

Carboxylate‐Assisted Formation of Alkylcarbonate Species from CO₂ and Tetramethylammonium Salts with a β‐Amino Acid Anion