Ferdi Karadaş scite author profile

The capture of CO 2 from flue gases derived from fossil-fueled power plants and the absorption of CO 2 /H 2 S for natural gas sweetening purposes are two relevant industrial problems closely related to very important environmental, economical, and technological problems that need to be solved. Amine-based technologies are widely used in the industry for these purposes, but they lead to several problems that have led many researchers to pose new alternatives. Ionic liquids (ILs) have emerged in the last few years as promising new acid gas absorbents, and thus, this remarkable interest, in both industry and academia, has led to a large collection of experimental and theoretical studies in which the most important aspects of the absorption process are analyzed. In this review, we show the most relevant conclusions obtained from the analysis of the literature, analyzing the state-of-the-art results, trying to infer the viability of ILs as an alternative to the available amine-based absorption processes, and showing the possible future directions of research.

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Thermophysical Properties of Pure Ionic Liquids: Review of Present Situation

Aparício¹,

Atilhan²,

Karadaş³

2010

Ind. Eng. Chem. Res.

410

302

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The large collection of thermophysical properties data for liquids available in the open literature is analyzed, describing its importance for industrial purposes. Although there has been a boom of thermophysical properties measurements for these fluids in the past decade, the reported analysis shows that studies have been centered on a limited number of fluids, whereas data collection for the new family ionic liquids is lacking. Measurements have been performed for limited temperature ranges, and pressure effects on the properties are extremely scarce in the literature; remarkable differences among data from different literature sources are reported. The need of sample purity quantification is analyzed together with the strong effect of these impurities on thermophysical properties. Available predictive models for the studied properties are analyzed together with the quality of their predictions. The main conclusion of this review is to point out the need of further systematic thermophysical studies, including for new environmentally friendly ionic liquids, carried out with interlaboratory comparisons, which allow the development of reference data sets.

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High capacity carbon dioxide adsorption by inexpensive covalent organic polymers

et al. 2012

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Efficient CO 2 scrubbing without a significant energy penalty remains an outstanding challenge for the fossil fuel-burning industry where aqueous amine solutions are still widely used. Porous materials have long been evaluated for next generation CO 2 adsorbents. Porous polymers, robust and inexpensive, show promise as feasible materials for the capture of CO 2 from warm exhaust fumes. We report the syntheses of porous covalent organic polymers (COPs) with CO 2 adsorption capacities of up to 5616 mg g À1 (measured at high pressures, i.e. 200 bar) and industrially relevant temperatures (as warm as 65 C). COPs are stable in boiling water for at least one week and near infinite CO 2 /H 2 selectivity is observed.

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Tuning the Electronic Properties of Prussian Blue Analogues for Efficient Water Oxidation Electrocatalysis: Experimental and Computational Studies

Alsaç

Ülker

Nune

et al. 2018

Chemistry A European J

100

107

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Although several Prussian Blue analogues (PBAs) have been investigated as water oxidation catalysts, the field lacks a comprehensive study that focuses on the design of the ideal PBA for this purpose. Here, members of a series of PBAs with different cyanide precursors have been investigated to study the effect of hexacyanometal groups on their electrocatalytic water oxidation activities. Cyclic voltammetric, chronoamperometric, and chronopotentiometric measurements have revealed a close relationship between the electron density of electroactive cobalt sites and electrocatalytic activity, which has also been confirmed by infrared and XPS studies. Furthermore, pH-dependent cyclic voltammetry and computational studies have been performed to gain insight into the catalytic mechanism and electronic structure of cyanide-based systems to identify possible intermediates and to assign the rate-determining step of the target process.

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Highly Stable Nanoporous Sulfur‐Bridged Covalent Organic Polymers for Carbon Dioxide Removal

Patel

Karadaş

Byun

et al. 2012

Adv Funct Materials

138

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Carbon dioxide capture and separation requires robust solids that can stand harsh environments where a hot mixture of gases is often found. Herein, the fi rst and comprehensive syntheses of porous sulfur-bridged covalent organic polymers (COPs) and their application for carbon dioxide capture in warm conditions and a wide range of pressures (0-200 bar) are reported. These COPs can store up to 3294 mg g − 1 of carbon dioxide at 318 K and 200 bar while being highly stable against heating up to 400 ° C. The carbon dioxide capacity of the COPs is also not hindered upon boiling in water for at least one week. Physisorptive binding is prevalent with isosteric heat of adsorptions around 24 kJ mol − 1 . M06-2X and RIMP2 calculations yield the same relative trend of binding energies, where, interestingly, the dimer of triazine and benzene play a cooperative role for a stronger binding of CO 2 (19.2 kJ mol − 1 ) as compared to a separate binding with triazine (13.3 kJ mol − 1 ) or benzene (11.8 kJ mol − 1 ).

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Ferdi Karadaş

Review on the Use of Ionic Liquids (ILs) as Alternative Fluids for CO₂Capture and Natural Gas Sweetening

Thermophysical Properties of Pure Ionic Liquids: Review of Present Situation

High capacity carbon dioxide adsorption by inexpensive covalent organic polymers

Tuning the Electronic Properties of Prussian Blue Analogues for Efficient Water Oxidation Electrocatalysis: Experimental and Computational Studies

Highly Stable Nanoporous Sulfur‐Bridged Covalent Organic Polymers for Carbon Dioxide Removal

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Resources

About

Ferdi Karadaş

Review on the Use of Ionic Liquids (ILs) as Alternative Fluids for CO2Capture and Natural Gas Sweetening

Thermophysical Properties of Pure Ionic Liquids: Review of Present Situation

High capacity carbon dioxide adsorption by inexpensive covalent organic polymers

Tuning the Electronic Properties of Prussian Blue Analogues for Efficient Water Oxidation Electrocatalysis: Experimental and Computational Studies

Highly Stable Nanoporous Sulfur‐Bridged Covalent Organic Polymers for Carbon Dioxide Removal

Contact Info

Product

Resources

About

Review on the Use of Ionic Liquids (ILs) as Alternative Fluids for CO₂Capture and Natural Gas Sweetening