Ha Thi Ngoc Uong scite author profile

International audienceAn imidazolium ionic liquid was synthesized, characterized and used as a catalyst for conversion of polyethylene terephthalate (PET) and soybean oil to polyester polyol (PE polyol). The degradation of PET waste was carried out using glycerol and low cost soybean oil that resulted in the formation of PE polyols. Formed PE polyols were characterized using Fourier transform infrared (FT-IR) and mass spectra method, thermo gravimetric and differential thermal analysis and gel permeation chromatoghraphy. The first step in the overall process is proposed to be the transesterification of soybean oil with glycerol to form monoglyceride or/and diglyceride of soybean oil fatty acids. In the second step, the obtained glycerides can react with PET to form PE polyol. Both steps could be combined in one process and acidic catalyzed by an ionic liquid. Ionic liquid can be used as active catalyst and show a high reusability. The influence of some factors such as amount of glycerol used in transesterification of soybean oil with glycerol, PET degradation time, and temperature on PET conversion were investigated to find the suitable conditions for the process. Under suggested optimum parameters (mass ratio of soybean oil to glycerol of 2:1, a time of 8 h and a temperature of 180 °C for PET degradation), a PET conversion of 87.3% was reache

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Using solid carriers impregnated with ammonium ionic liquids for platinum(IV) recovery from chloride solutions

Bui

Uong

Nguyen

et al. 2020

Korean J. Chem. Eng.

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Preparation and application of supported ionic liquid phases for sorption of Pt(IV) from chloride solution

et al. 2020

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Synthesis, Characterization, and Impregnation of Some Ionic Liquids on Polymer Membrane for Separation of Carbon Dioxide from Its Mixture with Methane

Bui

Uong

Nguyen

et al. 2018

Chem.Biochem.Eng.Q.

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Some 1-alkyl-3-methylimidazolium-based ionic liquids were synthesized, characterized, and immobilized on membranes to form supported ionic liquid membranes. The supported ionic liquid membranes were characterized by SEM. The initial transmembrane pressures were investigated for each type of impregnated membrane. The CO 2 /CH 4 single gas and mixed gas permeability (CO 2 and CH 4) have been investigated. The results showed that the CO 2 /CH 4 ideal selectivities and mixed gas selectivities reached 15.45-23.9 and 13.91-22.82, respectively (equivalent to separation yields of 93.3-95.98 %). The 1-alkyl-3-methylimidazolium acetate impregnated membrane leads to a slightly lower CO 2 /CH 4 selectivity, however, this ionic liquid is stable, free of halogen and has a low price. The impregnated membranes prepared from polyvinylidene fluoride are more stable than those from polyethersulfone support, and have a higher affinity for CO 2 compared to other gas. The obtained high CO 2 /CH 4 selectivities indicate that immobilized membranes can be used for CO 2 separation processes.

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Ha Thi Ngoc Uong

Synthesis, characterization and application of some non-halogen ionic liquids as green solvents for deep desulfurization of diesel oil

Using ionic liquid catalyst for conversion of waste polyethylene terephthalate and soybean oil to polyester polyol

Using solid carriers impregnated with ammonium ionic liquids for platinum(IV) recovery from chloride solutions

Preparation and application of supported ionic liquid phases for sorption of Pt(IV) from chloride solution

Synthesis, Characterization, and Impregnation of Some Ionic Liquids on Polymer Membrane for Separation of Carbon Dioxide from Its Mixture with Methane

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