M. A. M. Abdullah scite author profile

Normally, an ionic liquids (ILs) is classified as hydrophilic or hydrophobic depending on its composition, whether it is miscible or immiscible with water. Nevertheless, this classification is ambiguous, since the miscibility of some ILs with water is strongly depending on temperature change. There are two classifications of thermo-responsive ionic liquids (TRILs) which are lower critical solution temperature (LCST) and upper critical solution temperature (UCST) behavior types. The aim of this study is to synthesis and characterize tetrafloroborate-based (BF4 −) anion with different alkyl chain of imidazolium- based cations ([Emim], [Bmim], [Hmim], [Omim]) and trifloroacetate (CFOO−) anion with different cations (ammonium, anilinium, pyridinium and phosphonium). The prepared ILs were mixed with water (30:70 wt %) and the resulting solutions were stirred vigorously for certain period of time. These solutions were cooled to 00C and then gradually heated to 70 0C. When the solution was found to be phase-separated upon heating, this mixture undergoes the LCST- type phase transition but its contrary with UCST behavioral. The TRILs were characterized using Fourier Transform Infrared (FTIR) to identify the functional group and Nuclear Magnetic Resonance (NMR) in confirming the structure. Due to the special property of TRILs that became phase separation by changing the temperature, it can be recovered easily and reused for many recycles in wide range of application.

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Factorial design in optimizing parameters for thermoresponsive ionic liquids as draw solution

Abdullah

Nizam

Saufi

et al. 2022

Process Safety and Environmental Protection

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Effect of 1-Butyl-3-Methylimidazolium Tricyanomethane in Extractive Desulphurization Process on Model Oil

Abdullah

Man

2020

JCEIB

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Driven by regulatory requirements to reduce the content of sulphur in fuels, the demand to find an alternative process to hydrodesulphurization is on the rise. In this study, experiments were conducted for the removal of sulphur compound (present as benzothiophene or BT) with concentration of 2000 ppm in the model oil (present as n-dodecane or n-C12) using 1-butyl-3-methylimidazolium tricyanomethane ([bmim][TCM]) as the extractant. The effects of stirring speed, extraction time and water content on the extraction efficiency were investigated. In the end, the loading factor of the [bmim][TCM] is also discussed where it can be concluded that, more than one mole of [bmim][TCM] may interacted with one mole of BT during extractive desulphurization process.

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M. A. M. Abdullah

Screening Cation and Anion of Ionic Liquid for Dissolution of Silicon Dioxide using COSMO-RS

Synthesis and characterization of thermo-responsive ionic liquids (TRILs)

Factorial design in optimizing parameters for thermoresponsive ionic liquids as draw solution

Effect of 1-Butyl-3-Methylimidazolium Tricyanomethane in Extractive Desulphurization Process on Model Oil

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