Showing total 136 results

1. Ionic liquids 2014 and selected papers from ILMAT 2013: highlighting the ever-growing potential of ionic liquids.

Author

Vioux A and Taubert A

Subjects

Ionic Liquids

Published

2014

2. Separation of Palladium from Alkaline Cyanide Solutions through Microemulsion Extraction Using Imidazolium Ionic Liquids.

Author

Deng H, Liu C, Xu X, Wu Y, Chen M, and Huang Z

Subjects

Palladium, Bromides, Sodium Chloride, Cyanides, Ionic Liquids

Abstract

In this paper, three imidazolium-based ionic liquids, viz., 1-butyl-3-undecyl imidazolium bromide ([BUIm]Br), 1-butyl-3-octyl imidazolium bromide ([BOIm]Br), and 1-butyl-3-hexadecyl imidazolium bromide ([BCIm]Br), were synthesized. Three novel microemulsions systems were constructed and then were used to recover Pd (II) from cyanide media. Key extraction parameters such as the concentration of ionic liquids (ILs), equilibration time, phase ratio (R A/O ), and pH were evaluated. The [BUIm]Br/n-heptane/n-pentanol/sodium chloride microemulsion system exhibited a higher extraction percentage of Pd (II) than the [BOIm]Br/n-heptane/n-pentanol/sodium chloride and [BCIm]Br/n-heptane/n-pentanol/sodium chloride microemulsion systems. Under the optimal conditions (equilibrium time of 10 min and pH 10), the extraction percentages of these metals were all higher than 98.5% when using the [BUIm]Br/n-heptane/n-pentanol/sodium chloride microemulsion system. Pd(CN) 4 2- was separated through a two-step stripping procedure, in which Fe (III) and Co (III) were first separated using KCl solution, then Pd(CN) 4 2- was stripped using KSCN solution (separation factors of Pd from Fe and Co exceeded 10 3 ). After five extraction-recovery experiments, the recovery of Pd (II) through the microemulsion system remained over 90%. The Pd (II) extraction mechanism of the ionic liquid [BUIm]Br was determined to occur via anion exchange, as shown by spectral analysis (UV, FTIR), Job's method, and DFT calculations. The proposed process has potential applications for the comprehensive treatment of cyanide metallurgical wastewater.

Published

2023

3. A FTIR and DFT Combination Study to Reveal the Mechanism of Eliminating the Azeotropy in Ethyl Propionate-n-Propanol System with Ionic Liquid Entrainer.

Author

Zheng YZ, Zhao R, Zhang YC, and Zhou Y

Subjects

1-Propanol, Spectroscopy, Fourier Transform Infrared, Propanols, Ionic Liquids chemistry

Abstract

Ionic liquids (ILs) have presented excellent behaviors in the separation of azeotropes in extractive distillation. However, the intrinsic molecular nature of ILs in the separation of azeotropic systems is not clear. In this paper, Fourier-transform infrared spectroscopy (FTIR) and theoretical calculations were applied to screen the microstructures of ethyl propionate-n-propanol-1-ethyl-3-methylimidzolium acetate ([EMIM][OAC]) systems before and after azeotropy breaking. A detailed vibrational analysis was carried out on the v (C=O) region of ethyl propionate and v (O-D) region of n-propanol- d 1 . Different species, including multiple sizes of propanol and ethyl propionate self-aggregators, ethyl propionate-n-propanol interaction complexes, and different IL-n-propanol interaction complexes, were identified using excess spectroscopy and confirmed with theoretical calculations. Their changes in relative amounts were also observed. The hydrogen bond between n-propanol and ethyl propionate/[EMIM][OAC] was detected, and the interaction properties were also revealed. Overall, the intrinsic molecular nature of the azeotropy breaking was clear. First, the interactions between [EMIM][OAC] and n-propanol were stronger than those between [EMIM][OAC] and ethyl propionate, which influenced the relative volatilities of the two components in the system. Second, the interactions between n-propanol and [EMIM][OAC] were stronger than those between n-propanol and ethyl propionate. Hence, adding [EMIM][OAC] could break apart the ethyl propionate-n-propanol complex (causing the azeotropy in the studied system). When x ([EMIM][OAC]) was lower than 0.04, the azeotropy still existed mainly because the low IL could not destroy the whole ethyl propionate-n-propanol interaction complex. At x (IL) > 0.04, the whole ethyl propionate-n-propanol complex was destroyed, and the azeotropy disappeared.

Published

2023

4. Ionic Liquid-Supported Photocatalysts: A Reusable Environmentally Friendly Oxidation Reaction System That Uses Air and Light.

Author

Koguchi S, Fujita H, and Shibuya Y

Subjects

Solvents, Oxidation-Reduction, Chemistry, Organic methods, Catalysis, Ionic Liquids chemistry

Abstract

Ionic liquids are used in various fields due to their unique physical properties and are widely utilized as reaction solvents in the field of synthetic organic chemistry. We have previously proposed a new organic synthetic method in which the catalyst and reaction reagents are supported on ionic liquids. This method has various advantages, such as the ability to reuse the reaction solvent and catalyst and its facile post-reaction treatment. In this paper, we describe the synthesis of an ionic liquid-supported anthraquinone photocatalyst and the synthesis of benzoic acid derivatives using this system. This synthesis of benzoic acid derivatives via the cleavage of vicinal diols by an ionic liquid-supported anthraquinone photocatalyst is an environmentally friendly process, and furthermore, it has a simple post-reaction process, and the catalyst and solvent can both be reused. To the best of our knowledge, this is the first report on the synthesis of benzoic-acid derivatives via the cleavage of vicinal diols using light and an ionic-liquid-supported catalyst.

Published

2023

5. Synthesis of Tropine-Based Functionalized Acidic Ionic Liquids and Catalysis of Esterification.

Author

Ni H, Zhang Y, Zong C, Hou Z, Song H, Chen Y, Liu X, Xu T, and Luo Y

Subjects

Acids, Aspirin, Catalysis, Esterification, Ionic Liquids

Abstract

Some traditional acidic ionic liquids (AILs) have shown great catalytic potential in esterification; meanwhile, the design and application of more new AILs are expected at present.Tropine-based functionalized acidic ionic liquids (FAILs) were synthesized to realize esterification catalysis for the first time; with aspirin synthesis as the template reaction, key influences on the substrate conversion and product yield of the synthesis, such as IL type, ratio of salicylic acid to acetic anhydride, temperature, reaction time and amount of IL, were investigated. The new tropine-based FAILs exhibited excellent performance in catalytic synthesis of aspirin with 88.7% yield and 90.8% selectivity. Multiple recovery and re-usage of N-(3-propanesulfonic acid) tropine is the cation, and p -toluenesulfonic acid is the anion. ([Trps][OTs]) shows satisfactory results. When [Trps][OTs] was used to catalyze different esterification reactions, it also showed good results. The above studies proved that ionic liquid [Trps][OTs] could serve as an ideal green solvent for esterification reaction, which serves as a suitable substitute for current catalysts., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Published

2022

6. Tuning Functionalized Ionic Liquids for CO 2 Capture.

Author

Zhang R, Ke Q, Zhang Z, Zhou B, Cui G, and Lu H

Subjects

Anions chemistry, Carbon, Carbon Dioxide chemistry, Cations chemistry, Solvents chemistry, Ionic Liquids chemistry

Abstract

The increasing concentration of CO 2 in the atmosphere is related to global climate change. Carbon capture, utilization, and storage (CCUS) is an important technology to reduce CO 2 emissions and to deal with global climate change. The development of new materials and technologies for efficient CO 2 capture has received increasing attention among global researchers. Ionic liquids (ILs), especially functionalized ILs, with such unique properties as almost no vapor pressure, thermal- and chemical-stability, non-flammability, and tunable properties, have been used in CCUS with great interest. This paper focuses on the development of functionalized ILs for CO 2 capture in the past decade (2012~2022). Functionalized ILs, or task-specific ILs, are ILs with active sites on cations or/and anions. The main contents include three parts: cation-functionalized ILs, anion-functionalized ILs, and cation-anion dual-functionalized ILs for CO 2 capture. In addition, classification, structures, and synthesis of functionalized ILs are also summarized. Finally, future directions, concerns, and prospects for functionalized ILs in CCUS are discussed. This review is beneficial for researchers to obtain an overall understanding of CO 2 -philic ILs. This work will open a door to develop novel IL-based solvents and materials for the capture and separation of other gases, such as SO 2 , H 2 S, NOx, NH 3 , and so on.

Published

2022

7. Efficient Copper-bisisoquinoline-based Catalysts for Selective Aerobic Oxidation of Alcohols to Aldehydes and Ketones

Author

Hai-Liang Jiang, Zaher M. A. Judeh, Li-Yan Ying, and Hao-Yu Shen

Subjects

chemistry.chemical_element, ionic liquids, Catalysis, Full Research Paper, Inorganic Chemistry, lcsh:Chemistry, chemistry.chemical_compound, Organic chemistry, Physical and Theoretical Chemistry, Molecular Biology, lcsh:QH301-705.5, Spectroscopy, Organic solvent, Organic Chemistry, General Medicine, Copper, Computer Science Applications, chemistry, lcsh:Biology (General), lcsh:QD1-999, Alcohol oxidation, Ionic liquid, selective oxidation of alcohols, Molecular oxygen, Solvent effects, Selectivity, copper-bisisoquinoline-based catalysts

Abstract

The selective oxidation of alcohols with molecular oxygen was efficiently completed in high conversion and selectivity using copper-bisisoquinoline-based catalysts under mild reaction condition. The effects of various parameters such as reaction temperature, reaction time, oxidant, ligands, etc, were studied. Solvent effect has been as well studied in ionic liquids [bmim]PF6, [omim]BF4 and [hmim]BF4, comparing to traditional volatile organic solvent. The use of ionic liquids was found to enhance the catalytic properties of the catalysts used.

Published

2007

8. Sulfonium-based Ionic Liquids Incorporating the Allyl Functionality

Author

Wee Han Ang, Dongbin Zhao, Paul J. Dyson, and Zhaofu Fei

Subjects

Sulfonium, Metathesis, Medicinal chemistry, Sulfonium salts, Catalysis, Full Research Paper, Inorganic Chemistry, ionic liquids, lcsh:Chemistry, chemistry.chemical_compound, Organic chemistry, Physical and Theoretical Chemistry, Molecular Biology, lcsh:QH301-705.5, Spectroscopy, Chemistry, X-ray structure, Organic Chemistry, allyl group, General Medicine, viscosity, Computer Science Applications, lcsh:Biology (General), lcsh:QD1-999, Ionic liquid

Abstract

Dongbin Zhao, Zhaofu Fei, Wee Han Ang and Paul J. D yson* Institut des Sciences et Ingenierie Chimiques, Ecole Polytechnique Federale de Lausanne (EPFL), CH ─1015 Lausanne, Switzerland. Email: paul.dyson@epfl.ch * Author to whom correspondence should be addressed: Email: paul.dyson@epfl.ch, Fax: 0041-21-693-9885 Received: 23 March 2007 / Accepted: 10 April 2007 / Published: 16 April 2007 Abstract : A series of sulfonium halides bearing allyl groups have been prepared and characterized. Anion metathesis with Li[Tf

Published

2007

9. Performance Analysis of a HT-PEMFC System with 6FPBI Membranes Doped with Cross-Linkable Polymeric Ionic Liquid.

Author

Li Y, Shao W, Ma Z, Zheng M, and Song H

Subjects

Membranes, Artificial, Polymers, Reproducibility of Results, Ionic Liquids, Protons

Abstract

In this paper, a high-temperature proton-exchange membrane fuel cell (HT-PEMFC) system using fluorine-containing polybenzimidazole (6FPBI) composite membranes doped with cross-linkable polymer ionic liquid (cPIL) is developed and studied. The reliability of the model is verified by a comparison with the experimental data. The performance of the HT-PEMFC system using 6FPBI membranes with different levels of cPIL is analyzed. The results show that when the HT-PEMFC uses 6FPBI membranes with a cPIL content of 20 wt % (6FPBI-cPIL 20 membranes), the single cell power density is 4952.3 W·m-2. The excessive cPIL content will lead to HT-PEMFC performance degradation. The HT-PEMFC system using the 6FPBI-cPIL 20 membranes shows a higher performance, even at higher temperatures and pressures, than the systems using 6FPBI membranes. In addition, the parametric study results suggest that the HT-PEMFC system should be operated at a higher inlet temperature and hydrogen pressure to increase system output power and efficiency. The oxygen inlet pressure should be reduced to decrease the power consumption of the ancillary equipment and improve system efficiency. The proposed model can provide a prediction for the performance of HT-PEMFC systems with the application of phosphoric-acid-doped polybenzimidazole (PA-PBI) membranes.

Published

2022

10. Recent Research Progress of Ionic Liquid Dissolving Silks for Biomedicine and Tissue Engineering Applications.

Author

Heng H, Deng Q, Yang Y, and Wang F

Subjects

Biocompatible Materials chemistry, Silk chemistry, Tissue Engineering methods, Fibroins chemistry, Ionic Liquids chemistry

Abstract

Ionic liquids (ILs) show a bright application prospect in the field of biomedicine and energy materials due to their unique recyclable, modifiability, structure of cation and anion adjustability, as well as excellent physical and chemical properties. Dissolving silk fibroin (SF), from different species silkworm cocoons, with ILs is considered an effective new way to obtain biomaterials with highly enhanced/tailored properties, which can significantly overcome the shortcomings of traditional preparation methods, such as the cumbersome, time-consuming and the organic toxicity caused by manufacture. In this paper, the basic structure and properties of SF and the preparation methods of traditional regenerated SF solution are first introduced. Then, the dissolving mechanism and main influencing factors of ILs for SF are expounded, and the fabrication methods, material structure and properties of SF blending with natural biological protein, inorganic matter, synthetic polymer, carbon nanotube and graphene oxide in the ILs solution system are introduced. Additionally, our work summarizes the biomedicine and tissue engineering applications of silk-based materials dissolved through various ILs. Finally, according to the deficiency of ILs for dissolving SF at a high melting point and expensive cost, their further study and future development trend are prospected.

Published

2022

11. Recovery of the N,N -Dibutylimidazolium Chloride Ionic Liquid from Aqueous Solutions by Electrodialysis Method.

Author

Babilas D, Kowalik-Klimczak A, and Mielańczyk A

Subjects

Chlorides, Halogens, Salts, Water, Ionic Liquids

Abstract

Ionic liquids (ILs), named also as liquid salts, are compounds that have unique properties and molecular architecture. ILs are used in various industries; however, due to their toxicity, the ILs' recovery from the postreaction solutions is also a very important issue. In this paper, the possibility of 1,3-dialkylimidazolium IL, especially the N , N -dibutylimidazolium chloride ([C 4 C 4 IM]Cl) recovery by using the electrodialysis (ED) method was investigated. The influence of [C 4 C 4 IM]Cl concentration in diluate solution on the ED efficiency was determined. Moreover, the influence of IL on the ion-exchange membranes' morphology was examined. The recovery of [C 4 C 4 IM]Cl, the [C 4 C 4 IM]Cl flux across membranes, the [C 4 C 4 IM]Cl concentration degree, the energy consumption, and the current efficiency were determined. The results showed that the ED allows for the [C 4 C 4 IM]Cl recovery and concentration from dilute solutions. It was found that the [C 4 C 4 IM]Cl content in the concentrates after ED was above three times higher than in the initial diluate solutions. It was noted that the ED of solutions containing 5-20 g/L [C 4 C 4 IM]Cl allows for ILs recovery in the range of 73.77-92.45% with current efficiency from 68.66% to 92.99%. The [C 4 C 4 IM]Cl recovery depended upon the initial [C 4 C 4 IM]Cl concentration in the working solution. The highest [C 4 C 4 IM]Cl recovery (92.45%) and ED efficiency (92.99%) were obtained when the [C 4 C 4 IM]Cl content in the diluate solution was equal 20 g/L. Presented results proved that ED can be an interesting and effective method for the [C 4 C 4 IM]Cl recovery from the dilute aqueous solutions.

Published

2022

12. Organo-niobate Ionic Liquids: Synthesis, Characterization and Application as Acid Catalyst in Pechmann Reactions

Author

Joel C. Rubim, Ernesto R. Souza, Carlos Kleber Z. Andrade, Ivana O. Pinto, Valerio C. D. Soares, Melquizedeque B. Alves, and Paulo A. Z. Suarez

Subjects

niobium pentachloride, Nanotechnology, Chloride, Catalysis, Full Research Paper, Inorganic Chemistry, lcsh:Chemistry, ionic liquids, chemistry.chemical_compound, medicine, Organic chemistry, Pechmann reaction, Physical and Theoretical Chemistry, Pechmann condensation, Molecular Biology, lcsh:QH301-705.5, Spectroscopy, Organic Chemistry, General Medicine, Computer Science Applications, chemistry, lcsh:Biology (General), lcsh:QD1-999, Ionic liquid, medicine.drug

Abstract

The combinations of 1-butyl-3-methylimidazolium chloride with NbCl5 yielded ionic mixtures with different melting point temperatures and acidity depending on the niobium molar fraction. The mixtures were characterized by thermal (DSC) and spectroscopic (FT-IR and 1H NMR) analysis. The Pechmann reactions of different phenols with ethylacetoacetate, producing coumarins, was used as model to evaluate the catalytic behavior of these mixtures as acid Lewis catalyst. These reactions were carried out using acidic mixtures of 60 mol%.

Published

2007

13. Influence of Small Quantities of Water on the Physical Properties of Alkylammonium Nitrate Ionic Liquids.

Author

Ausín D, Parajó JJ, Trenzado JL, Varela LM, Cabeza O, and Segade L

Subjects

Ionic Liquids chemistry, Nitrates chemistry, Quaternary Ammonium Compounds chemistry, Water chemistry

Abstract

This paper presents a comprehensive study of two alkylammonium nitrate ionic liquids. As part of this family of materials, mainly ethylammonium nitrate (EAN) and also propylammonium nitrate (PAN) have attracted a great deal of attention during the last decades due to their potential applications in many fields. Although there have been numerous publications focused on the measurement of their physical properties, a great dispersion can be observed in the results obtained for the same magnitude. One of the critical points to be taken into account in their physical characterization is their water content. Thus, the main objective of this work was to determine the degree of influence of the presence of small quantities of water in EAN and PAN on the measurement of density, viscosity, electrical conductivity, refractive index and surface tension. For this purpose, the first three properties were determined in samples of EAN and PAN with water contents below 30,000 ppm in a wide range of temperatures, between 5 and 95 °C, while the last two were obtained at 25 °C. As a result of this study, it has been concluded that the presence of water is critical in those physical properties that involve mass or charge transport processes, resulting in the finding that the absolute value of the average percentage change in both viscosity and electrical conductivity is above 40%. Meanwhile, refractive index (≤0.3%), density (≤0.5%) and surface tension (≤2%) present much less significant changes.

Published

2021

14. Ionic Liquids-A Review of Their Toxicity to Living Organisms.

Author

Gonçalves ARP, Paredes X, Cristino AF, Santos FJV, and Queirós CSGP

Subjects

Animals, Humans, Plants, Ionic Liquids toxicity

Abstract

Ionic liquids (ILs) were initially hailed as a green alternative to traditional solvents because of their almost non-existent vapor pressure as ecological replacement of most common volatile solvents in industrial processes for their damaging effects on the environment. It is common knowledge that they are not as green as desired, and more thought must be put into the biological consequences of their industrial use. Still, compared to the amount of research studying their physicochemical properties and potential applications in different areas, there is a scarcity of scientific papers regarding how these substances interact with different organisms. The intent of this review was to compile the information published in this area since 2015 to allow the reader to better understand how, for example, bacteria, plants, fish, etc., react to the presence of this family of liquids. In general, lipophilicity is one of the main drivers of toxicity and thus the type of cation. The anion tends to play a minor (but not negligible) role, but more research is needed since, owing to the very nature of ILs, except for the most common ones (imidazolium and ammonium-based), many of them are subject to only one or two articles.

Published

2021

15. A Review on Ionic Liquids-Based Membranes for Middle and High Temperature Polymer Electrolyte Membrane Fuel Cells (PEM FCs).

Author

Ebrahimi M, Kujawski W, Fatyeyeva K, and Kujawa J

Subjects

Animals, Electric Conductivity, Hot Temperature, Humans, Membranes, Artificial, Protons, Electrolytes chemistry, Ionic Liquids chemistry, Polymers chemistry

Abstract

Today, the use of polymer electrolyte membranes (PEMs) possessing ionic liquids (ILs) in middle and high temperature polymer electrolyte membrane fuel cells (MT-PEMFCs and HT-PEMFCs) have been increased. ILs are the organic salts, and they are typically liquid at the temperature lower than 100 °C with high conductivity and thermal stability. The membranes containing ILs can conduct protons through the PEMs at elevated temperatures (more than 80 °C), unlike the Nafion-based membranes. A wide range of ILs have been identified, including chiral ILs, bio-ILs, basic ILs, energetic ILs, metallic ILs, and neutral ILs, that, from among them, functionalized ionic liquids (FILs) include a lot of ion exchange groups in their structure that improve and accelerate proton conduction through the polymeric membrane. In spite of positive features of using ILs, the leaching of ILs from the membranes during the operation of fuel cell is the main downside of these organic salts, which leads to reducing the performance of the membranes; however, there are some ways to diminish leaching from the membranes. The aim of this review is to provide an overview of these issues by evaluating key studies that have been undertaken in the last years in order to present objective and comprehensive updated information that presents the progress that has been made in this field. Significant information regarding the utilization of ILs in MT-PEMFCs and HT-PEMFCs, ILs structure, properties, and synthesis is given. Moreover, leaching of ILs as a challenging demerit and the possible methods to tackle this problem are approached in this paper. The present review will be of interest to chemists, electrochemists, environmentalists, and any other researchers working on sustainable energy production field.

Published

2021

16. Revisiting Ionic Liquid Structure-Property Relationship: A Critical Analysis.

Author

Silva W, Zanatta M, Ferreira AS, Corvo MC, and Cabrita EJ

Subjects

Diffusion, Electric Conductivity, Ions, Structure-Activity Relationship, Viscosity, Ionic Liquids chemistry

Abstract

In the last few years, ionic liquids (ILs) have been the focus of extensive studies concerning the relationship between structure and properties and how this impacts their application. Despite a large number of studies, several topics remain controversial or not fully answered, such as: the existence of ion pairs, the concept of free volume and the effect of water and its implications in the modulation of ILs physicochemical properties. In this paper, we present a critical review of state-of-the-art literature regarding structure-property relationship of ILs, we re-examine analytical theories on the structure-property correlations and present new perspectives based on the existing data. The interrelation between transport properties (viscosity, diffusion, conductivity) of IL structure and free volume are analysed and discussed at a molecular level. In addition, we demonstrate how the analysis of microscopic features (particularly using NMR-derived data) can be used to explain and predict macroscopic properties, reaching new perspectives on the properties and application of ILs., Competing Interests: The authors declare no conflicts of interest.

Published

2020

17. Selective Separation of Acetic and Hexanoic Acids across Polymer Inclusion Membrane with Ionic Liquids as Carrier.

Author

Wang BY, Zhang N, Li ZY, Lang QL, Yan BH, Liu Y, and Zhang Y

Subjects

Fatty Acids, Volatile isolation & purification, Models, Molecular, Permeability, Quaternary Ammonium Compounds chemistry, Acetic Acid isolation & purification, Caproates isolation & purification, Ionic Liquids chemistry, Membranes, Artificial, Polymers chemistry

Abstract

This paper first reports on the selective separation of volatile fatty acids (VFAs) (acetic and hexanoic acids) using polymer inclusion membranes (PIMs) containing quaternary ammonium and phosphonium ionic liquids (ILs) as the carrier. The affecting parameters such as IL content, VFA concentration, and the initial pH of the feed solution as well as the type and concentration of the stripping solution were investigated. PIMs performed a much higher selective separation performance toward hexanoic acid. The optimal PIM composed of 60 wt% quaternary ammonium IL with the permeability coefficients for acetic and hexanoic acid of 0.72 and 4.38 µm s -1 , respectively, was determined. The purity of hexanoic acid obtained in the stripping solution increased with an increase in the VFA concentration of the feed solution and decreasing HCl concentration of the stripping solution. The use of Na 2 CO 3 as the stripping solution and the involvement of the electrodialysis process could dramatically enhance the transport efficiency of both VFAs, but the separation efficiency decreased sharply. Furthermore, a coordinating mechanism containing hydrogen bonding and ion exchange for VFA transport was demonstrated. The highest purity of hexanoic acid (89.3%) in the stripping solution demonstrated that this PIM technology has good prospects for the separation and recovery of VFAs from aqueous solutions.

Published

2019

18. Molecular Dynamic Simulations of the Physical Properties of Four Ionic Liquids.

Author

Fan, Jing, Pan, Yuting, Gao, Zhiqiang, and Qu, Hongwei

Abstract

In this study, the molecular structure models of four ionic liquids were created, the reverse nonequilibrium molecular dynamics simulation (RNEMD) approach was used to predict their densities and viscosities, and their thermal conductivity was simulated using the non-equilibrium molecular dynamic simulation method (NEMD). The calculated results of ionic liquid densities were compared with the data in the literature; most of the variances are around 2.5%, and the maximum relative deviation was less than 6.27%; viscosity values were compared with the experimental data, with a maximum relative deviation of −8.96% and a minimum relative deviation of −2.72%. The simulated thermal conductivity has a good linear relationship with respect to temperature and pressure, which is in good agreement. This study provides a reference for molecular dynamics simulation to measure the physical properties of ionic liquids, which is important for the development of ionic liquids. [ABSTRACT FROM AUTHOR]

Published

2024

19. The Application of Green Solvents in the Synthesis of S -Heterocyclic Compounds—A Review.

Author

Kosmalski, Tomasz, Kołodziejska, Renata, Przybysz, Monika, Szeleszczuk, Łukasz, Pawluk, Hanna, Mądra-Gackowska, Katarzyna, and Studzińska, Renata

Subjects

BIOACTIVE compounds, ORGANOSULFUR compounds, SUSTAINABLE chemistry, HETEROCYCLIC compounds synthesis, HETEROCYCLIC chemistry, CHOLINE chloride

Abstract

Cyclic organic compounds containing sulfur atoms constitute a large group, and they play an important role in the chemistry of heterocyclic compounds. They are valuable intermediates for the synthesis of other compounds or biologically active compounds themselves. The synthesis of heterocyclic compounds poses a major challenge for organic chemists, especially in the context of applying the principles of "green chemistry". This work is a review of the methods of synthesis of various S-heterocyclic compounds using green solvents such as water, ionic liquids, deep eutectic solvents, glycerol, ethylene glycol, polyethylene glycol, and sabinene. The syntheses of five-, six-, and seven-membered heterocyclic compounds containing a sulfur atom or atoms, as well as those with other heteroatoms and fused-ring systems, are described. It is shown that using green solvents determines the attractiveness of conditions for many reactions; for others, such use constitutes a real compromise between efficiency and mild reaction conditions. [ABSTRACT FROM AUTHOR]

Published

2024

20. The Use of Liquids Ionic Fluids as Pharmaceutically Active Substances Helpful in Combating Nosocomial Infections Induced by Klebsiella Pneumoniae New Delhi Strain, Acinetobacter Baumannii and Enterococcus Species.

Author

Miskiewicz A, Ceranowicz P, Szymczak M, Bartuś K, and Kowalczyk P

Subjects

Anti-Bacterial Agents chemistry, Anti-Bacterial Agents pharmacology, Drug Resistance, Bacterial drug effects, Humans, Ionic Liquids chemistry, Ionic Liquids pharmacology, Quaternary Ammonium Compounds pharmacology, Quaternary Ammonium Compounds therapeutic use, Solvents chemistry, Acinetobacter baumannii drug effects, Anti-Bacterial Agents therapeutic use, Cross Infection drug therapy, Cross Infection microbiology, Enterobacteriaceae Infections drug therapy, Enterobacteriaceae Infections microbiology, Enterococcus drug effects, Ionic Liquids therapeutic use, Klebsiella pneumoniae drug effects

Abstract

This review deals with various microbiological activities of ionic liquids, which constitute the first anti-infective defense against multi-drug-resistant bacteria-with a particular emphasis placed on medicine and pharmacology. The quoted data on the biological activity of ionic liquids including their antimicrobial properties (depending on the type of a cation or an anion) and are discussed in view of possible applications in nosocomial infections. Dedicated attention is given to finding infections with the Klebsiella pneumoniae New Delhi strain, Acinetobacter baumannii , and Enterococcus species, which are responsible for the induction of antibiotic resistance in intensive care units. Diagnosis and treatment using current antibiotics is a significant problem in hospital care, and the relevant burden on the health systems of the European Union member states induces the search for new, effective methods of treatment. Ionic liquids, due to their antibacterial effect, can be considered topical and general medications and may provide the basis for treatment to eliminate the antibiotic resistance phenomenon in the future. At present, the number of infections with resistant pathogens in hospitals and outpatient clinics in the European Union is growing. In 2015⁻2017, a significant incidence of respiratory and bloodstream infections with bacteria resistant to antibiotics from the 3rd generation group of cephalosporins, glycopeptides, and carbapenems were observed. The paper presents examples of synthesized bifunctional salts with at least one pharmaceutically active ion in obtaining a controlled release, controlled delivery, and biological impact on the pathogenic bacteria, viruses and fungi. The ionic liquids obtained in the presented way may find applications in the treatment of wounds and infections.

Published

2018

21. ON the Nature of Ionic Liquid Gating of La 2-x Sr x CuO₄.

Author

Atesci H, Gelling W, Coneri F, Hilgenkamp H, and van Ruitenbeek JM

Subjects

Copper chemistry, Electric Conductivity, Lanthanum chemistry, Oxides chemistry, Oxygen chemistry, Static Electricity, Strontium chemistry, Ionic Liquids chemistry

Abstract

Ionic liquids have recently been used as means of modulating the charge carrier properties of cuprates. The mechanism behind it, however, is still a matter of debate. In this paper we report experiments on ionic liquid gated ultrathin La 2-x Sr x CuO₄ films. Our results show that the electrostatic part of gating has limited influence in the conductance of the cuprate in the gate voltage range of 0 to - 2 V. A non-electrostatic mechanism takes over for gate voltages below - 2 V. This mechanism most likely changes the oxygen concentration of the film. The results presented are in line with previous X-ray based studies on ionic liquid gating induced oxygenation of the cuprate materials YBa₂Cu₃O 7-x and La 2-x Sr x CuO₄., Competing Interests: The authors declare no conflict of interest. The founding sponsors had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, and in the decision to publish the results.

Published

2018

22. Ionic Liquid-Mediated Homogeneous Esterification of Cinnamic Anhydride to Xylans.

Author

Yang G, Zhou H, Chen J, Lyu G, Xia Y, and Lucia LA

Subjects

Adsorption, Catalysis, Esterification, Hydrogels chemistry, Ions chemistry, Magnetic Resonance Spectroscopy, Metals, Heavy chemistry, Solubility, Spectroscopy, Fourier Transform Infrared, Temperature, Thermodynamics, Cinnamates chemistry, Ionic Liquids chemistry, Xylans chemistry

Abstract

A new functional biopolymer was synthesized through an ionic liquid-mediated homogeneous grafting of cinnamic anhydride to xylans. The ionic liquid used was 1-allyl-3-methylimidazolium chloride (AMIMCl) ionic liquid. Xylans with degrees of substitution (DS) between 0.11 and 0.57 were accessible in a completely homogeneous system by changing catalysts (NaOH, KOH and LiOH), time, reaction temperature, and cinnamic anhydride/xylan molar ratio. The chemical structure and the thermal stability of the derivatives were characterized by Fourier transform infrared spectroscopy (FT-IR), 13 C-NMR spectroscopy, and thermogravimetry. The thermal stability of the derivatives was reduced compared with the original xylan. Possible applications of the cinnamic anhydride-acylated xylan derivatives include wet-end papermaking, organic-inorganic composite films, and hydrogels., Competing Interests: The authors declare no conflict of interest.

Published

2017

23. ON the Nature of Ionic Liquid Gating of La2-xSrxCuO4.

Author

Atesci, Hasan, Gelling, Wouter, Coneri, Francesco, Hilgenkamp, Hans, and van Ruitenbeek, Jan M.

Subjects

CUPRATES, IONIC liquids, THIN films, CONDENSED matter physics, OXYGENATION (Chemistry)

Abstract

Ionic liquids have recently been used as means of modulating the charge carrier properties of cuprates. The mechanism behind it, however, is still a matter of debate. In this paper we report experiments on ionic liquid gated ultrathin La2-xSrxCuO4 films. Our results show that the electrostatic part of gating has limited influence in the conductance of the cuprate in the gate voltage range of 0 to -2 V. A non-electrostatic mechanism takes over for gate voltages below -2 V. This mechanism most likely changes the oxygen concentration of the film. The results presented are in line with previous X-ray based studies on ionic liquid gating induced oxygenation of the cuprate materials YBa2Cu3O7-x and La2-xSrxCuO4 [ABSTRACT FROM AUTHOR]

Published

2018

24. Tetrabromidocuprates(II)-Synthesis, Structure and EPR.

Author

Zabel A, Winter A, Kelling A, Schilde U, and Strauch P

Subjects

Copper chemistry, Crystallography, X-Ray, Ionic Liquids chemistry, Magnetics, Electron Spin Resonance Spectroscopy methods, Ionic Liquids chemical synthesis, Models, Molecular

Abstract

Metal-containing ionic liquids (ILs) are of interest for a variety of technical applications, e.g., particle synthesis and materials with magnetic or thermochromic properties. In this paper we report the synthesis of, and two structures for, some new tetrabromidocuprates(II) with several "onium" cations in comparison to the results of electron paramagnetic resonance (EPR) spectroscopic analyses. The sterically demanding cations were used to separate the paramagnetic Cu(II) ions for EPR measurements. The EPR hyperfine structure in the spectra of these new compounds is not resolved, due to the line broadening resulting from magnetic exchange between the still-incomplete separated paramagnetic Cu(II) centres. For the majority of compounds, the principal g values (g‖ and g⊥) of the tensors could be determined and information on the structural changes in the [CuBr₄](2-) anions can be obtained. The complexes have high potential, e.g., as ionic liquids, as precursors for the synthesis of copper bromide particles, as catalytically active or paramagnetic ionic liquids.

Published

2016

25. New Insights into the Hygroscopic Character of Ionic Liquids: Study of Fourteen Representatives of Five Cation and Four Anion Families.

Author

Rilo, Esther, Rosende-Pereiro, Alejandro, Domínguez-Pérez, Montserrat, Cabeza, Oscar, and Segade, Luisa

Subjects

IONIC liquids, DIMETHYL sulfate, DIETHYL sulfate, ANIONS, TRP channels, TETRAFLUOROBORATES

Abstract

Over the past three decades, the synthesis of new ionic liquids (ILs) and the expansion of their use in newer applications have grown exponentially. From the beginning of this vertiginous period, it was known that many of them were hygroscopic, which in some cases limited their use or altered the value of their measured physical properties with all the problems that this entails. In an earlier article, we addressed the hygroscopic grade achieved by the ILs 1-ethyl-3-methylimidazolium chloride, 1-ethyl-3-methylimidazolium bromide, 1-ethyl-3-methylimidazolium methyl sulfate, 1-ethyl-3-methylimidazolium ethyl sulfate, 1-ethyl-3-methylpyridinium ethyl sulfate, 1-ethyl-3-methylimidazolium tosylate, 1-ethyl-3-methylimidazolium tetrafluoroborate, 1-butyl-3-methylimidazolium tetrafluoroborate, 1-dodecyl-3-methylimidazolium tetrafluoroborate, 1-butyl-3-methylpyridinium tetrafluoroborate, 1-butyl-1-methylpiperidinium bis(trifluoromethyl sulfonyl)imide, 1-methyl-1-propylpyrrolidinium bis(trifluoromethyl sulfonyl)imide, 1-butyl-1-methylpyrrolidinium bis(trifluoromethyl sulfonyl)imide, and methyl trioctyl ammonium bis(trifluoromethyl sulfonyl)imide. The objective was to determine the influence of the chemical nature of the compounds, exposed surface area, sample volume, agitation, and temperature. For this purpose, we exposed the samples to abrupt increases in relative humidity from 15 to 100% for days in an atmosphere chamber and then proceeded with the reverse process in a gentle manner. The results show that the sorption of water from the atmosphere depends on the nature of the IL, especially the anion, with the chloride anion being of particular importance (chloride ≫ alkyl sulfates~bromide > tosylate ≫ tetrafluoroborate). It has also been proven for the EMIM-ES and EMIM-BF4 samples that the mechanism of moisture capture is both absorption and adsorption, and that the smaller the exposed surface area, the higher the ratio of the mass of water per unit area. [ABSTRACT FROM AUTHOR]

Published

2024

26. Application of ionic liquids in hydrometallurgy.

Author

Park J, Jung Y, Kusumah P, Lee J, Kwon K, and Lee CK

Subjects

Electrolysis methods, Ionic Liquids chemistry, Metallurgy methods

Abstract

Ionic liquids, low temperature molten salts, have various advantages manifesting themselves as durable and environmentally friendly solvents. Their application is expanding into various fields including hydrometallurgy due to their unique properties such as non-volatility, inflammability, low toxicity, good ionic conductivity, and wide electrochemical potential window. This paper reviews previous literatures and our recent results adopting ionic liquids in extraction, synthesis and processing of metals with an emphasis on the electrolysis of active/light, rare earth, and platinum group metals. Because the research and development of ionic liquids in this area are still emerging, various, more fundamental approaches are expected to popularize ionic liquids in the metal manufacturing industry.

Published

2014

27. Ionic Liquids as Designed, Multi-Functional Plasticizers for Biodegradable Polymeric Materials: A Mini-Review.

Author

Shamshina, Julia L. and Berton, Paula

Subjects

BIODEGRADABLE materials, IONIC liquids, PLASTICIZERS, BIODEGRADABLE plastics, PACKAGING materials, BIOPOLYMERS

Abstract

Measures to endorse the adoption of eco-friendly biodegradable plastics as a response to the scale of plastic pollution has created a demand for innovative products from materials from Nature. Ionic liquids (ILs) have the ability to disrupt the hydrogen bonding network of biopolymers, increase the mobility of biopolymer chains, reduce friction, and produce materials with various morphologies and mechanical properties. Due to these qualities, ILs are considered ideal for plasticizing biopolymers, enabling them to meet a wide range of specifications for biopolymeric materials. This mini-review discusses the effect of different IL-plasticizers on the processing, tensile strength, and elasticity of materials made from various biopolymers (e.g., starch, chitosan, alginate, cellulose), and specifically covers IL-plasticized packaging materials and materials for biomedical and electrochemical applications. Furthermore, challenges (cost, scale, and eco-friendliness) and future research directions in IL-based plasticizers for biopolymers are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

28. Liquid Crystals in Tribology.

Author

Carrión, Francisco-José, Martínez-Nicolás, Ginés, Iglesias, Patricia, Sanes, José, and Bermúdez, María-Dolores

Subjects

LIQUID crystals, TRIBOLOGY, LUBRICATION & lubricants, IONIC liquids, SURFACE active agents, POLYMERS, FRICTION, ENERGY consumption, VISCOSITY

Abstract

Two decades ago, the literature dealing with the possible applications of low molar mass liquid crystals, also called monomer liquid crystals (MLCs), only included about 50 references. Today, thousands of papers, conference reports, books or book chapters and patents refer to the study and applications of MLCs as lubricants and lubricant additives and efforts are made to develop new commercial applications. The development of more efficient lubricants is of paramount technological and economic relevance as it is estimated that half the energy consumption is dissipated as friction. MLCs have shown their ability to form ordered boundary layers with good load-carrying capacity and to lower the friction coefficients, wear rates and contact temperature of sliding surfaces, thus contributing to increase the components service life and to save energy. This review includes the use of MLCs in lubrication, and dispersions of MLCs in conventional polymers (PDMLCs). Finally, new lubricating system composed of MLC blends with surfactants, ionic liquids or nanophases are considered. [ABSTRACT FROM AUTHOR]

Published

2009

29. ON the Nature of Ionic Liquid Gating of La2-xSrxCuO4.

Author

Atesci, Hasan, Gelling, Wouter, Coneri, Francesco, Hilgenkamp, Hans, and van Ruitenbeek, Jan M.

Subjects

*CUPRATES, *IONIC liquids, *THIN films, *CONDENSED matter physics, *OXYGENATION (Chemistry)

Abstract

Ionic liquids have recently been used as means of modulating the charge carrier properties of cuprates. The mechanism behind it, however, is still a matter of debate. In this paper we report experiments on ionic liquid gated ultrathin La2-xSrxCuO4 films. Our results show that the electrostatic part of gating has limited influence in the conductance of the cuprate in the gate voltage range of 0 to -2 V. A non-electrostatic mechanism takes over for gate voltages below -2 V. This mechanism most likely changes the oxygen concentration of the film. The results presented are in line with previous X-ray based studies on ionic liquid gating induced oxygenation of the cuprate materials YBa2Cu3O7-x and La2-xSrxCuO4 [ABSTRACT FROM AUTHOR]

Published

2018

30. Dynamics in Quaternary Ionic Liquids with Non-Flexible Anions: Insights from Mechanical Spectroscopy.

Author

Palumbo, Oriele, Paolone, Annalisa, Philippi, Frederik, Rauber, Daniel, and Welton, Tom

Subjects

IONIC liquids, DIFFUSION measurements, ANIONS, RHEOLOGY, SPECTROMETRY

Abstract

The present work investigates how mechanical properties and ion dynamics in ionic liquids (ILs) can be affected by ILs' design while considering possible relationships between different mechanical and transport properties. Specifically, we study mechanical properties of quaternary ionic liquids with rigid anions by means of Dynamical Mechanical Analysis (DMA). We are able to relate the DMA results to the rheological and transport properties provided by viscosity, conductivity, and diffusion coefficient measurements. A good agreement is found in the temperature dependence of different variables described by the Vogel−Fulcher−Tammann model. In particular, the mechanical spectra of all the measured liquids showed the occurrence of a relaxation, for which the analysis suggested its attribution to a diffusive process, which becomes evident when the ion dynamics are not affected by the fast structural reorganization of flexible anions on a local level. [ABSTRACT FROM AUTHOR]

Published

2023

31. The Effect of Non-Solvent Nature on the Rheological Properties of Cellulose Solution in Diluted Ionic Liquid and Performance of Nanofiltration Membranes.

Author

Ilyin, Sergey O., Kostyuk, Anna V., Anokhina, Tatyana S., Melekhina, Viktoria Y., Bakhtin, Danila S., Antonov, Sergey V., and Volkov, Alexey V.

Subjects

IONIC solutions, RHEOLOGY, IONIC liquids, NANOFILTRATION, LASER interferometry, DIMETHYL sulfoxide, DILUTION, CELLULOSE

Abstract

The weak point of ionic liquids is their high viscosity, limiting the maximum polymer concentration in the forming solutions. A low-viscous co-solvent can reduce viscosity, but cellulose has none. This study demonstrates that dimethyl sulfoxide (DMSO), being non-solvent for cellulose, can act as a nominal co-solvent to improve its processing into a nanofiltration membrane by phase inversion. A study of the rheology of cellulose solutions in diluted ionic liquids ([EMIM]Ac, [EMIM]Cl, and [BMIM]Ac) containing up to 75% DMSO showed the possibility of decreasing the viscosity by up to 50 times while keeping the same cellulose concentration. Surprisingly, typical cellulose non-solvents (water, methanol, ethanol, and isopropanol) behave similarly, reducing the viscosity at low doses but causing structuring of the cellulose solution and its phase separation at high concentrations. According to laser interferometry, the nature of these non-solvents affects the mass transfer direction relative to the forming membrane and the substance interdiffusion rate, which increases by four-fold when passing from isopropanol to methanol or water. Examination of the nanofiltration characteristics of the obtained membranes showed that the dilution of ionic liquid enhances the rejection without changing the permeability, while the transition to alcohols increases the permeability while maintaining the rejection. [ABSTRACT FROM AUTHOR]

Published

2023

32. Renewable Biopolymers Combined with Ionic Liquids for the Next Generation of Supercapacitor Materials.

Author

Shamshina, Julia L. and Berton, Paula

Subjects

BIOPOLYMERS, IONIC liquids, CAPACITORS, BIOMEDICAL materials, POLYELECTROLYTES

Abstract

The search for biocompatible and renewable materials for the next generation of energy devices has led to increasing interest in using biopolymers as a matrix component for the development of electric double-layer capacitors (EDLCs). However, using biopolymers as host matrices presents limitations in performance and scalability. At the same time, ionic liquids (ILs) have shown exceptional properties as non-aqueous electrolytes. This review intends to highlight the progress in integrating ILs and biopolymers for EDLC. While ILs have been used as solvents to process biopolymers and electrolyte materials, biopolymers have been utilized to provide novel chemistries of electrolyte materials via one of the following scenarios: (1) acting as host polymeric matrices for IL-support, (2) performing as polymeric fillers, and (3) serving as backbone polymer substrates for synthetic polymer grafting. Each of these scenarios is discussed in detail and supported with several examples. The use of biopolymers as electrode materials is another topic covered in this review, where biopolymers are used as a source of carbon or as a flexible support for conductive materials. This review also highlights current challenges in materials development, including improvements in robustness and conductivity, and proper dispersion and compatibility of biopolymeric and synthetic polymeric matrices for proper interface bonding. [ABSTRACT FROM AUTHOR]

Published

2023

33. Synthesis of Ammonium-Based ILs with Different Lengths of Aliphatic Chains and Organic Halogen-Free Anions as Corrosion Inhibitors of API X52 Steel.

Author

Cornejo Robles, Emiliano, Olivares-Xometl, Octavio, Likhanova, Natalya V., Arellanes-Lozada, Paulina, Lijanova, Irina V., and Díaz-Jiménez, Víctor

Subjects

LANGMUIR isotherms, CARBOXYLIC acids, STEEL, ANIONS, SCANNING electron microscopy, STEEL corrosion

Abstract

In the present work, synthesis and characterization of 15 ionic liquids (ILs) derived from quaternary ammonium and carboxylates were carried out in order to proceed to their evaluation as corrosion inhibitors (CIs) of API X52 steel in 0.5 M HCl. Potentiodynamic tests confirmed the inhibition efficiency (IE) as a function of the chemical configuration of the anion and cation. It was observed that the presence of two carboxylic groups in long linear aliphatic chains reduced the IE, whereas in shorter chains it was increased. Tafel-polarization results revealed the ILs as mixed-type CIs and that the IE was directly proportional to the CI concentration. The compounds with the best IE were 2-amine-benzoate of N,N,N-trimethyl-hexadecan-1-ammonium ([THDA+][−AA]), 3-carboxybut-3-enoate of N,N,N-trimethyl-hexadecan-1-ammonium ([THDA+][−AI]), and dodecanoate of N,N,N-trimethyl-hexadecan-1-ammonium ([THDA+][−AD]) within the 56–84% interval. Furthermore, it was found that the ILs obeyed the Langmuir adsorption isotherm model and inhibited the corrosion of steel through a physicochemical process. Finally, the surface analysis by scanning electron microscopy (SEM) confirmed less steel damage in the presence of CI due to the inhibitor–metal interaction. [ABSTRACT FROM AUTHOR]

Published

2023

34. Temperature Effect on the Corrosion Inhibition of Carbon Steel by Polymeric Ionic Liquids in Acid Medium.

Author

Gómez-Sánchez, Giselle, Olivares-Xometl, Octavio, Arellanes-Lozada, Paulina, Likhanova, Natalya V., Lijanova, Irina V., Arriola-Morales, Janette, Díaz-Jiménez, Víctor, and López-Rodríguez, Josué

Subjects

CARBON steel corrosion, POLYMER solutions, TEMPERATURE effect, MOLECULAR orbitals, IONIC liquids, ELECTRIC potential

Abstract

In the present research work, the temperature effect on the corrosion inhibition process of API 5L X60 steel in 1 M H2SO4 by employing three vinylimidazolium poly(ionic liquid)s (PILs) was studied by means of electrochemical techniques, surface analysis and computational simulation. The results revealed that the maximal inhibition efficiency (75%) was achieved by Poly[VIMC4][Im] at 308 K and 175 ppm. The PILs showed Ecorr displacements with respect to the blank from −14 mV to −31 mV, which revealed the behavior of mixed-type corrosion inhibitors (CIs). The steel micrographs, in the presence and absence of PILs, showed less surface damage in the presence of PILs, thus confirming their inhibiting effect. The computational studies of the molecular orbitals and molecular electrostatic potential of the monomers suggested that the formation of a protecting film could be mainly due to the nitrogen and oxygen heteroatoms present in each structure. [ABSTRACT FROM AUTHOR]

Published

2023

35. Effect of Zwitterionic Additive on Electrode Protection through Electrochemical Performances of Anatase TiO 2 Nanotube Array Electrode in Ionic Liquid Electrolyte.

Author

Roganović, Aleksandra, Vraneš, Milan, Cvjetićanin, Nikola, Chen, Xiaoping, and Papović, Snežana

Subjects

NANOTUBES, TITANIUM dioxide, IONIC liquids, ELECTROLYTES, ELECTRODES, DIFFERENTIAL scanning calorimetry

Abstract

In this work, a functionalized zwitterionic (ZI) compound 1-butylsulfonate-3-methylimidazole (C1C4imSO3) was synthesized and tested as an additive to LiTFSI/C2C2imTFSI ionic liquid-based electrolytes for lithium-ion batteries. The structure and purity of C1C4imSO3 were confirmed by NMR and FTIR spectroscopy. The thermal stability of the pure C1C4imSO3 was examined by simultaneous thermogravimetric–mass spectrometric (TG–MS) measurements and differential scanning calorimetry (DSC). The LiTFSI/C2C2imTFSI/C1C4imSO3 system was tested as a potential electrolyte for lithium-ion batteries by using anatase TiO2 nanotube array electrode as the anode material. This electrolyte with 3% C1C4imSO3 showed significant improvement of lithium-ion intercalation/deintercalation properties, such as capacity retention and Coulombic efficiency compared to electrolyte without additive. [ABSTRACT FROM AUTHOR]

Published

2023

36. Improving the Antimycobacterial Drug Clofazimine through Formation of Organic Salts by Combination with Fluoroquinolones.

Author

Bento, Clara M., Silva, Ana Teresa, Mansano, Bruno, Aguiar, Luísa, Teixeira, Cátia, Gomes, Maria Salomé, Gomes, Paula, Silva, Tânia, and Ferraz, Ricardo

Subjects

FLUOROQUINOLONES, NORFLOXACIN, SALTS, ANTI-infective agents, THERMAL analysis, PHARMACODYNAMICS, DRUGS

Abstract

This work reports the synthesis, structural and thermal analysis, and in vitro evaluation of the antimicrobial activity of two new organic salts (OSs) derived from the antimycobacterial drug clofazimine and the fluoroquinolones ofloxacin or norfloxacin. Organic salts derived from active pharmaceutical ingredients (API-OSs), as those herein disclosed, hold promise as cost-effective formulations with improved features over their parent drugs, thus enabling the mitigation of some of their shortcomings. For instance, in the specific case of clofazimine, its poor solubility severely limits its bioavailability. As compared to clofazimine, the clofazimine-derived OSs now reported have improved solubility and thermostability, without any major deleterious effects on the drug's bioactivity profile. [ABSTRACT FROM AUTHOR]

Published

2023

37. Optical Fiber Grating-Prism Fabrication by Imprint Patterning of Ionic-Liquid-Based Resist.

Author

Turek, Natalia, Pala, Piotr, Szpecht, Andrea, Zając, Adrian, Sembratowicz, Teresa, Martynkien, Tadeusz, Śmiglak, Marcin, and Komorowska, Katarzyna

Subjects

DIFFRACTION gratings, OPTICAL gratings, DOUBLE bonds, OPTICAL properties, PROPYLENE glycols, FIBER Bragg gratings, OPTICAL fibers, PRISMS

Abstract

We present a method of microstructure fabrication on the tip of the optical fiber using a UV soft-imprint process of polymerizable ionic liquid-based optical resist. Ionic liquid with two UV-sensitive vinylbenzyl groups in the structure was diluted in non-hazardous propylene glycol (PG) to obtain liquid material for imprinting. No additional organic solvent was required. The impact of propylene glycol amount and exposure dose on optical and mechanical properties was investigated. The final procedure of the UV imprint on the optical fiber tip was developed, including the mold preparation, setup building, UV exposure and post-laser cure. As the IL-containing vinylbenzyl groups can also be polymerized by the radical rearrangement of double bonds through thermal heating, the influence of the addition of 1–2% BHT polymerization inhibitor was verified. As a result, we present the fabricated diffraction gratings and the optical fiber spectrometer component—grism (grating-prism), which allows obtaining a dispersion spectrum at the output of an optical in line with the optical fiber long axis, as the main component in an optical fiber spectrometer. The process is very simple due to the fact that its optimization already starts in the process of molecule design, which is part of the trend of sustainable technologies. The final material can be designed by the tailoring of the anion and/or cation molecule, which in turn can lead to a more efficient fabrication procedure and additional functionalities of the final structure. [ABSTRACT FROM AUTHOR]

Published

2023

38. Nanocellulose-Based Polymer Composites Functionalized with New Gemini Ionic Liquids.

Author

Zielińska, Daria, Skrzypczak, Andrzej, Peplińska, Barbara, and Borysiak, Sławomir

Subjects

IONIC liquids, POLARIZATION microscopy, INJECTION molding, FOURIER transform spectroscopy, POLYMERIC composites, POLYMERS, POLYMERIC nanocomposites, CELLULOSE fibers, DIFFERENTIAL scanning calorimetry

Abstract

The manuscript discusses the application of dimeric imidazolium ionic liquids with an aliphatic linker of different lengths, constituting a new class of compounds called gemini, for the modification of renewable materials. This innovative functionalization with the use of ionic liquids made it possible to obtain polymer composite nanomaterials with renewable fillers, which will reduce the consumption of petroleum-based raw materials and also be directly related to the reduction of energy intensity. Renewable filler in the form of nanocellulose modified with ionic liquids, as well as polymer composites with such filler obtained by extrusion and injection molding techniques, were subjected to detailed characterization using techniques like: X-ray diffraction (XRD), Fourier transform spectroscopy (FTIR), dispersion studies (DLS), morphological analysis (SEM), differential scanning calorimetry (DSC), hot-stage polarized light microscopy and characterization of mechanical properties. The use of innovative dimeric ionic liquids proved to be an effective method to carry out efficient functionalization of cellulose. This provided a stable space structure between polysaccharide particles, limiting aggregate formation. It was shown that chemical modification with ionic liquids has a significant effect on the nucleation activity of cellulose fillers and the formation of the supermolecular structure of the polymer matrix, which consequently allowed to obtain polymer composites with excellent strength characteristics and increased flexibility, which will allow to increase their application potential. Innovative ionic liquids have contributed to obtaining green nanomaterials with excellent functional properties, which have not been described in the literature so far. [ABSTRACT FROM AUTHOR]

Published

2022

39. Isopropyl Amino Acid Esters Ionic Liquids as Vehicles for Non-Steroidal Anti-Inflammatory Drugs in Potential Topical Drug Delivery Systems with Antimicrobial Activity.

Author

Klebeko, Joanna, Krüger, Oliver, Dubicki, Mateusz, Ossowicz-Rupniewska, Paula, and Janus, Ewa

Subjects

DRUG delivery systems, ANTI-infective agents, ANTI-inflammatory agents, ESTERS, IONIC liquids, TRANSDERMAL medication, AMINO acids

Abstract

New derivatives of non-steroidal anti-inflammatory drugs were synthesized via conjugation with L-amino acid isopropyl esters. The characteristics of the physicochemical properties of the obtained pharmaceutically active ionic liquids were determined. It has been shown how the incorporation of various L-amino acid esters as an ion pair affects the properties of the parent drug. Moreover, the antimicrobial activity of the obtained compounds was evaluated. The proposed structural modifications of commonly used drugs indicate great potential for use in topical and transdermal preparations. [ABSTRACT FROM AUTHOR]

Published

2022

40. Influence of Selective Extraction/Isolation of Heme/Hemoglobin with Hydrophobic Imidazolium Ionic Liquids on the Precision and Accuracy of Cotinine ELISA Test.

Author

Flieger, Jolanta, Tatarczak-Michalewska, Małgorzata, Flieger, Wojciech, Baj, Jacek, Buszewicz, Grzegorz, Teresiński, Grzegorz, Maciejewski, Ryszard, Wawrzykowski, Jacek, Przygodzka, Dominika, Lutsyk, Valery, and Płaziński, Wojciech

Subjects

COTININE, HEME, MOLECULAR dynamics, IONIC liquids, HEMOGLOBINS, GLYCOSYLATED hemoglobin, MOLECULAR interactions, MYOGLOBIN

Abstract

In this study, ionic liquids were used for the selective extraction/isolation of hemoglobin from human serum for cotinine determination using the ELISA Kit. The suitability of hydrophobic imidazolium-based ionic liquids was tested, of which OMIM BF4 (1-methyl-3-octylimidazolium tetrafluoroborate) turned out to be the most suitable for direct extraction of hemoglobin into an ionic liquid without the use of any additional reagent at one extraction step. Hemoglobin was separated quantitatively (95% recovery) from the remaining types of proteins remaining in the aqueous phase. Quantum mechanical calculations showed that the interaction of the iron atom in the heme group and the nitrogen atom of the ionic liquid cation is responsible for the transfer of hemoglobin whereas molecular dynamics simulations demonstrated that the non-covalent interactions between heme and solvent are more favorable in the case of OMIM BF4 in comparison to water. The opposite trend was found for cotinine. Selective isolation of the heme/hemoglobin improved the ELISA test's accuracy, depending on the cotinine level, from 15% to 30%. [ABSTRACT FROM AUTHOR]

Published

2022

41. Phase Behavior of Ionic Liquid-Based Aqueous Two-Phase Systems.

Author

Nie, Lirong, Zheng, Ziwei, Lu, Mingxia, Yao, Shun, and Guo, Dong

Subjects

PHASE equilibrium, CHEMICAL reactions, IONIC liquids

Abstract

As an environmentally friendly separation medium, the ionic liquid (IL)-based aqueous two-phase system (ATPS) is attracting long-term attention from a growing number of scientists and engineers. Phase equilibrium data of IL-based ATPSs are an important basis for the design and optimization of chemical reactions and separation processes involving ILs. This article provides the recent significant progress that has been made in the field and highlights the possible directions of future developments. The effects of each component (such as salting-out agents and ILs) on the phase behavior of IL-based ATPSs are summarized and discussed in detail. We mainly focus on the phase behavior of ATPSs by using ILs, expecting to provide meaningful and valuable information that may promote further research and application. [ABSTRACT FROM AUTHOR]

Published

2022

42. Exploring the Absorption Mechanisms of Imidazolium-Based Ionic Liquids to Epigallocatechin Gallate.

Author

Luo, Yingjie, Zhang, Yiwei, Tao, Cimin, Ni, Hongfei, Liu, Xuesong, Chen, Yong, Wu, Yongjiang, Song, Hang, and Xu, Tengfei

Subjects

IONIC liquids, POLYMER solutions, ADSORPTION capacity, EPIGALLOCATECHIN gallate, ABSORPTION, MOLECULAR docking

Abstract

Imidazolium-based ionic liquids are wildly used in natural product adsorption and purification. In this work, one typical polymeric ionic liquid (PIL) was synthesized by using L-proline as the anion, which exhibited excellent adsorption capacity toward tea polyphenol epigallocatechin gallate (EGCG). The adsorption conditions were optimized with the response surface method (RSM). Under the optimum conditions, the adsorption capacity of the PIL for EGCG can reach as high as 552 mg/g. Dynamics and isothermal research shows that the adsorption process of EGCG by the PIL particularly meets the quasi-second-order kinetic equation and monolayer adsorption mechanism. According to thermodynamic parameter analysis, the adsorption process is endothermic and spontaneous. The results of theoretical calculation by molecular docking also demonstrated the interaction mechanisms between EGCG and the ionic liquid. Considering the wide application of imidazolium-based ionic liquids in component adsorption and purification, the present study can not only be extended to other similar experimental mechanism validation, but also be representative for guiding the synthesis of PIL and optimization of adsorption conditions. [ABSTRACT FROM AUTHOR]

Published

2022

43. Separation of Palladium from Alkaline Cyanide Solutions through Microemulsion Extraction Using Imidazolium Ionic Liquids

Author

Hui Deng, Chali Liu, Xin Xu, Yuanyuan Wu, Muhan Chen, and Zhangjie Huang

Subjects

microemulsions, ionic liquids, metal cyanides, palladium, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

In this paper, three imidazolium-based ionic liquids, viz., 1-butyl-3-undecyl imidazolium bromide ([BUIm]Br), 1-butyl-3-octyl imidazolium bromide ([BOIm]Br), and 1-butyl-3-hexadecyl imidazolium bromide ([BCIm]Br), were synthesized. Three novel microemulsions systems were constructed and then were used to recover Pd (II) from cyanide media. Key extraction parameters such as the concentration of ionic liquids (ILs), equilibration time, phase ratio (RA/O), and pH were evaluated. The [BUIm]Br/n-heptane/n-pentanol/sodium chloride microemulsion system exhibited a higher extraction percentage of Pd (II) than the [BOIm]Br/n-heptane/n-pentanol/sodium chloride and [BCIm]Br/n-heptane/n-pentanol/sodium chloride microemulsion systems. Under the optimal conditions (equilibrium time of 10 min and pH 10), the extraction percentages of these metals were all higher than 98.5% when using the [BUIm]Br/n-heptane/n-pentanol/sodium chloride microemulsion system. Pd(CN)42− was separated through a two-step stripping procedure, in which Fe (III) and Co (III) were first separated using KCl solution, then Pd(CN)42− was stripped using KSCN solution (separation factors of Pd from Fe and Co exceeded 103). After five extraction–recovery experiments, the recovery of Pd (II) through the microemulsion system remained over 90%. The Pd (II) extraction mechanism of the ionic liquid [BUIm]Br was determined to occur via anion exchange, as shown by spectral analysis (UV, FTIR), Job’s method, and DFT calculations. The proposed process has potential applications for the comprehensive treatment of cyanide metallurgical wastewater.

Published

2023

44. IL-Functionalized Mg 3 Al-LDH as New Efficient Adsorbent for Pd Recovery from Aqueous Solutions.

Author

Cocheci, Laura, Lupa, Lavinia, Tolea, Nick Samuel, Lazău, Radu, and Pode, Rodica

Subjects

PLATINUM group, AQUEOUS solutions, PRECIOUS metals, PALLADIUM, SOLID phase extraction, IONIC liquids, ADSORPTION capacity, SELF-propagating high-temperature synthesis

Abstract

Palladium is a noble metal of the platinum group metals (PGMs) with a high value and major industrial applications. Due to the scarce palladium resources, researchers' attention is currently focused on Pd ions recovery from secondary sources. Regarding the recovery process from aqueous solutions, many methods were studied, amongst which adsorption process gained a special attention due to its clear advantages. Moreover, the efficiency and the selectivity of an adsorbent material can be further improved by functionalization of various solid supports. In this context, the present work aims at the synthesis and characterization of Mg3Al-LDH and its functionalization with ionic liquid (IL) (Methyltrialkylammonium chloride) to obtain adsorbent materials with high efficiency in Pd removal from aqueous solutions. The maximum adsorption capacity developed by Mg3Al-LDH is 142.9 mg Pd., and depending on the functionalization method used (sonication and co-synthesis, respectively) the maximum adsorption capacity increases considerably, qmax-Mg3Al IL-US = 227.3 mg/g and qmax-Mg3Al IL-COS = 277.8 mg/g. [ABSTRACT FROM AUTHOR]

Published

2022

45. Green Blends Based on Ionic Liquids with Improved Performance for Membrane Technology: Perspectives for Environmental Applications.

Author

Filimon, Anca, Dobos, Adina Maria, Dumbrava, Oana, Doroftei, Florica, and Lupa, Lavinia

Subjects

GREEN technology, IONIC liquids, PERFORMANCE technology, WATER purification, WATER use, DICLOFENAC, WATER filtration

Abstract

Present research was directed towards the development of new high-performance and cost-effective polysulfone membranes (PSFQ) by introducing ionic liquids (ILs—Cyphos 101 IL and Aliquat 336) into their matrix. Variation of ILs was performed with the aim to find the one that brings new properties and improves the functionality and selectivity of PSFQ membranes in ultrafiltration processes. Based on the obtained results of the rheological study, we established the compatibility of compounds and optimal content of the used ILs, namely 3 wt% and 15 wt% Cyphos 101 IL and compositions varying between 3 and 15 wt % Aliquat 336. Results indicated that the ILs acted as plasticizers when they were added to the system, a helpful aspect in processing membranes used in water decontamination. The efficiency and performance of the membranes were evaluated by their use in the treatment of diclofenac (DCF)-containing waters. Membranes obtained from PSFQ/Aliquat 336 solution containing 15 wt% IL exhibited a 97% removal degree of DCF in the treatment process of 50 mL solution containing 3 mg/L DCF. The separation efficiency was kept constant for four filtration/cleaning cycles. The results indicated an improvement in membrane performance as the amount of IL in their structure increased, which confirms the potential for application in water treatment processes. [ABSTRACT FROM AUTHOR]

Published

2022

46. Ionic Liquid-Supported Photocatalysts: A Reusable Environmentally Friendly Oxidation Reaction System That Uses Air and Light

Author

Shinichi Koguchi, Haruto Fujita, and Yuga Shibuya

Subjects

ionic liquids, ionic liquid-supported catalysts, photocatalysts, cleavage of vicinal diol, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Ionic liquids are used in various fields due to their unique physical properties and are widely utilized as reaction solvents in the field of synthetic organic chemistry. We have previously proposed a new organic synthetic method in which the catalyst and reaction reagents are supported on ionic liquids. This method has various advantages, such as the ability to reuse the reaction solvent and catalyst and its facile post-reaction treatment. In this paper, we describe the synthesis of an ionic liquid-supported anthraquinone photocatalyst and the synthesis of benzoic acid derivatives using this system. This synthesis of benzoic acid derivatives via the cleavage of vicinal diols by an ionic liquid-supported anthraquinone photocatalyst is an environmentally friendly process, and furthermore, it has a simple post-reaction process, and the catalyst and solvent can both be reused. To the best of our knowledge, this is the first report on the synthesis of benzoic-acid derivatives via the cleavage of vicinal diols using light and an ionic-liquid-supported catalyst.

Published

2023

47. Deep Probabilistic Learning Model for Prediction of Ionic Liquids Toxicity.

Author

Chipofya, Mapopa, Tayara, Hilal, and Chong, Kil To

Subjects

IONIC liquids, INTERNET servers, DEEP learning, PREDICTION models, IONIC structure, FEATURE extraction, CHEMICAL structure

Abstract

Identification of ionic liquids with low toxicity is paramount for applications in various domains. Traditional approaches used for determining the toxicity of ionic liquids are often expensive, and can be labor intensive and time consuming. In order to mitigate these limitations, researchers have resorted to using computational models. This work presents a probabilistic model built from deep kernel learning with the aim of predicting the toxicity of ionic liquids in the leukemia rat cell line (IPC-81). Only open source tools, namely, RDKit and Mol2vec, are required to generate predictors for this model; as such, its predictions are solely based on chemical structure of the ionic liquids and no manual extraction of features is needed. The model recorded an RMSE of 0.228 and R 2 of 0.943. These results indicate that the model is both reliable and accurate. Furthermore, this model provides an accompanying uncertainty level for every prediction it makes. This is important because discrepancies in experimental measurements that generated the dataset used herein are inevitable, and ought to be modeled. A user-friendly web server was developed as well, enabling researchers and practitioners ti make predictions using this model. [ABSTRACT FROM AUTHOR]

Published

2022

48. CO 2 Absorption Mechanism by the Deep Eutectic Solvents Formed by Monoethanolamine-Based Protic Ionic Liquid and Ethylene Glycol.

Author

Cheng, Jinyu, Wu, Congyi, Gao, Weiji, Li, Haoyuan, Ma, Yanlong, Liu, Shiyu, and Yang, Dezhong

Subjects

IONIC liquids, EUTECTICS, CARBON dioxide, CHOLINE chloride, NUCLEAR magnetic resonance, SOLVENTS, ETHYLENE glycol, ABSORPTION

Abstract

Deep eutectic solvents (DESs) have been widely used to capture CO2 in recent years. Understanding CO2 mechanisms by DESs is crucial to the design of efficient DESs for carbon capture. In this work, we studied the CO2 absorption mechanism by DESs based on ethylene glycol (EG) and protic ionic liquid ([MEAH][Im]), formed by monoethanolamine (MEA) with imidazole (Im). The interactions between CO2 and DESs [MEAH][Im]-EG (1:3) are investigated thoroughly by applying 1H and 13 C nuclear magnetic resonance (NMR), 2-D NMR, and Fourier-transform infrared (FTIR) techniques. Surprisingly, the results indicate that CO2 not only binds to the amine group of MEA but also reacts with the deprotonated EG, yielding carbamate and carbonate species, respectively. The reaction mechanism between CO2 and DESs is proposed, which includes two pathways. One pathway is the deprotonation of the [MEAH]+ cation by the [Im]− anion, resulting in the formation of neutral molecule MEA, which then reacts with CO2 to form a carbamate species. In the other pathway, EG is deprotonated by the [Im]−, and then the deprotonated EG, HO-CH2-CH2-O−, binds with CO2 to form a carbonate species. The absorption mechanism found by this work is different from those of other DESs formed by protic ionic liquids and EG, and we believe the new insights into the interactions between CO2 and DESs will be beneficial to the design and applications of DESs for carbon capture in the future. [ABSTRACT FROM AUTHOR]

Published

2022

49. Study on the Preparation of Ionic Liquid Doped Chitosan/Cellulose-Based Electroactive Composites.

Author

Wang, Fang, Xie, Chong, Qian, Liying, He, Beihai, and Li, Junrong

Subjects

CONDUCTING polymers, ELECTROACTIVE substances, IONIC liquids, YOUNG'S modulus, STRENGTH of materials

Abstract

Electro-actuated polymer (EAP) can change its shape or volume under the action of an external electric field and shows similar behavioral characteristics with those of biological muscles, and so it has good application prospects in aerospace, bionic robots, and other fields. The properties of cellulose-based electroactive materials are similar to ionic EAP materials, although they have higher Young's modulus and lower energy consumption. However, cellulose-based electroactive materials have a more obvious deficiency—their actuation performance is often more significantly affected by ambient humidity due to the hygroscopicity caused by the strong hydrophilic structure of cellulose itself. Compared with cellulose, chitosan has good film-forming and water retention properties, and its compatibility with cellulose is very excellent. In this study, a chitosan/cellulose composite film doped with ionic liquid, 1-ethyl-3-methylimidazolium acetate ([EMIM]Ac), was prepared by co-dissolution and regeneration process using [EMIM]Ac as the solvent. After that, a conductive polymer, poly(3,4-ethylenedioxythiophene)/poly (styrene sulfonate) (PEDOT: PSS), was deposited on the surface of the resulted composite, and then a kind of cellulose-based electroactive composites were obtained. The results showed that the end bending deformation amplitude of the resulted material was increased by 2.3 times higher than that of the pure cellulose film under the same conditions, and the maximum deformation amplitude reached 7.3 mm. The tensile strength of the chitosan/cellulose composite film was 53.68% higher than that of the cellulose film, and the Young's modulus was increased by 72.52%. Furthermore, in comparison with the pure cellulose film, the water retention of the composite film increased and the water absorption rate decreased obviously, which meant that the resistance of the material to changes in environmental humidity was greatly improved. [ABSTRACT FROM AUTHOR]

Published

2019

50. A Review on Ionic Liquids-Based Membranes for Middle and High Temperature Polymer Electrolyte Membrane Fuel Cells (PEM FCs)

Author

Mohammad Ebrahimi, Wojciech Kujawski, Kateryna Fatyeyeva, and Joanna Kujawa

Subjects

middle and high temperature polymer electrolyte membrane fuel cells, polymer electrolyte membranes, ionic liquids, proton conductivity, leaching, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Today, the use of polymer electrolyte membranes (PEMs) possessing ionic liquids (ILs) in middle and high temperature polymer electrolyte membrane fuel cells (MT-PEMFCs and HT-PEMFCs) have been increased. ILs are the organic salts, and they are typically liquid at the temperature lower than 100 °C with high conductivity and thermal stability. The membranes containing ILs can conduct protons through the PEMs at elevated temperatures (more than 80 °C), unlike the Nafion-based membranes. A wide range of ILs have been identified, including chiral ILs, bio-ILs, basic ILs, energetic ILs, metallic ILs, and neutral ILs, that, from among them, functionalized ionic liquids (FILs) include a lot of ion exchange groups in their structure that improve and accelerate proton conduction through the polymeric membrane. In spite of positive features of using ILs, the leaching of ILs from the membranes during the operation of fuel cell is the main downside of these organic salts, which leads to reducing the performance of the membranes; however, there are some ways to diminish leaching from the membranes. The aim of this review is to provide an overview of these issues by evaluating key studies that have been undertaken in the last years in order to present objective and comprehensive updated information that presents the progress that has been made in this field. Significant information regarding the utilization of ILs in MT-PEMFCs and HT-PEMFCs, ILs structure, properties, and synthesis is given. Moreover, leaching of ILs as a challenging demerit and the possible methods to tackle this problem are approached in this paper. The present review will be of interest to chemists, electrochemists, environmentalists, and any other researchers working on sustainable energy production field.

Published

2021