Measurement and Correlation of the Solubility and Thermodynamic Properties of Ribavirin(II) in Nine Pure Solvents and (1-Propanol + Water) Binary Solvents

Li, Qipeng; Zhou, Ling; Zhang, Shihao; Shi, Ketao; Dai, Jiayu; Wang, Huiqi; Yin, Qiuxiang; Wang, Zhao

doi:10.1021/acs.jced.1c00345

Cited by 6 publications

(6 citation statements)

References 31 publications

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“…After five cycles, all the yields decrease significantly, and methyl oleate decreased the most, indicating that the catalytic stability of MIL-101-[IA-SO 3 H][HSO 4 ] in different kinds of polar solvents is different. Because the methanol, ethanol and propanol are obviously excessive, and the polarity followed by methanol > ethanol > propanol . It can be concluded that the stability of the immobilized sulfonic acid group functionalized ionic liquids showed negative correlation with the polarity of the system.…”

Section: Resultsmentioning

confidence: 95%

“…Because the methanol, ethanol and propanol are obviously excessive, and the polarity followed by methanol > ethanol > propanol. 50 It can be concluded that the stability of the immobilized sulfonic acid group functionalized ionic liquids showed negative correlation with the polarity of the system.…”

Section: Synthesis Of Mil-101-[ia-so 3 H][hso 4 ] and Mil-101-[ia-coo...mentioning

confidence: 98%

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Studies on the Stability and Deactivation Mechanism of Immobilized Ionic Liquids in Catalytic Esterification Reactions

Chen

et al. 2023

Langmuir

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Solid-supported ionic liquid catalysts (SILs) are the simplest form of a heterogenized ionic liquid and have attracted soaring attention because of the high catalytic activity as well as separation. Unfortunately, instability severely hinders their practical application, and the reason for the deactivation of SILs has not been investigated in detail. In the present study, the immobilized ionic liquid catalysts MIL-101-[IA-SO3H][HSO4] and MIL-101-[IA-COOH][HSO4] were prepared and used to study the stability in the esterification reaction. The results show that compared with MIL-101-[IA-COOH][HSO4], MIL-101-[IA-SO3H][HSO4] has a higher catalytic activity and a lower stability. The deactivation mechanism is discussed based on experiments and theoretical analysis: the protons on −SO3H dissociate in a polar solvent and combine with anion HSO4 –, and then, the formative H2SO4 molecule will leach out into the solvent. Our discussion indicates that the stability of immobilized ionic liquids is determined by the substituents of ionic liquid cations and becomes the significant factor controlling the stability limits. The study presented here would be important for understanding the deactivation reason and can help in choosing the suitable cation to avoid leaching of the active site during the reaction.

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Section: Resultsmentioning

confidence: 95%

Section: Synthesis Of Mil-101-[ia-so 3 H][hso 4 ] and Mil-101-[ia-coo...mentioning

confidence: 98%

Studies on the Stability and Deactivation Mechanism of Immobilized Ionic Liquids in Catalytic Esterification Reactions

Chen

et al. 2023

Langmuir

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“…Therefore, there exist other factors, including intermolecular interactions between solute and solvents and steric effects, that may affect the solubility. − As shown in Figure , methyl 1,2,4-triazole-3-carboxylate has both an electron-withdrawing group (carboxyl) and an electron-donating group (amino), whose interactions with solvents may affect the solubility. For example, the high solubility of methyl 1,2,4-triazole-3-carboxylate in cyclohexanone may be explained by the “like dissolves like” rule as the carbonyl group coexisted in the methyl 1,2,4-triazole-3-carboxylate and cyclohexanone . The solubility sequence of methyl 1,2,4-triazole-3-carboxylate in acyclic ketone solvents may be mainly influenced by steric effects.…”

Section: Resultsmentioning

confidence: 99%

“…For example, the high solubility of methyl 1,2,4-triazole-3-carboxylate in cyclohexanone may be explained by the "like dissolves like" rule as the carbonyl group coexisted in the methyl 1,2,4-triazole-3carboxylate and cyclohexanone. 27 The solubility sequence of methyl 1,2,4-triazole-3-carboxylate in acyclic ketone solvents may be mainly influenced by steric effects. The discordance between the order of solubility and the polarity of solvent in alcohol solvents may be caused by the interaction between solute and solvents.…”

Section: Yaws Modelmentioning

confidence: 99%

Measurement and Correlation of Solubility of Methyl 1,2,4-Triazole-3-carboxylate in 14 Pure Solvents from 278.15 to 318.15 K

Liu

Meng

et al. 2022

J. Chem. Eng. Data

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The solubility of methyl 1,2,4-triazole-3-carboxylate in 14 solvents (methanol, ethanol, 1-propanol, 2-propanol, 1-butanol, isobutyl alcohol, acetonitrile, acetone, 2-pentanone, 3-pentanone, 4-methyl-2-pentanone, cyclopentanone, cyclohexanone, tetrahydrofuran) in the range from 278.15 to 318.15 K and at atmospheric pressure was measured in this study. The solubility of methyl 1,2,4-triazole-3-carboxylate in all solvents increases with the increasing temperature. The solubility of methyl 1,2,4-triazole-3-carboxylate in the solvents except for methanol and cyclohexanone does not show much difference, and is significantly smaller than that in methanol and cyclohexanone. The solubility of methyl 1,2,4-triazole-3-carboxylate is not strictly related to polarity of the solvents as it is to the existence of other factors. The solubility of methyl 1,2,4-triazole-3-carboxylate was correlated by the λh equation, modified Apelblat model, and Yaws model. The Yaws model is the best one among the three models with average relative deviation (ARD) and average root-mean-square deviation (104(RMSD)) of 1.18% and 0.364. The work in this study provides important solubility data for purification and synthesis of methyl 1,2,4-triazole-3-carboxylate.

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“…1-Propanol is extensively employed as an intermediate in several industries, materials science, and biological research fields, which is regarded as a key intermediate for propionic acid and isopropyl alcohol, − and serves as a softener to enhance the product flexibility and resilience in the manufacturing processes of resins, rubber, and plastics. In addition, 1-propanol has been selected as a primary component ingredient in lubricants and coolants due to its high solubility and stability at low temperatures. − Its significance in molecular biology, particularly in DNA precipitation, should not be underestimated. , The addition of 1-propanol alters the solution polarity, enabling DNA precipitation due to DNA’s negative charge in aqueous solutions. Given the widespread demand for 1-propanol in daily life, it was predominantly produced via the process of hydration–hydrogenation .…”

Section: Introductionmentioning

confidence: 99%

Measurement and Correlation of Isobaric VLE Data for 1-Propanol + Water + 1-Butyl/Decyl-3-methylimidazole Bromide/Nitrate ILs at 101.33 kPa

Ren,

Wang,

Xiang

et al. 2024

J. Chem. Eng. Data

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Here, a novel protocol for the separation of the azeotropic system was performed by combining experimental investigations with the COSMO-RS prediction and molecular simulation to select ILs to break up the azeotropic point. The VLE data for the 1-propanol (1) + water (2) + ILs (3) azeotropic system were measured using a Fischer still at 101.33 kPa and correlated by the NRTL model. Four types of [Bmim]Br, [Bmim]NO 3 , [Demim]Br, and [Demim]NO 3 ILs synthesized were screened to separate the azeotropic system. The affinity interaction occurred between the ILs and water, leading to the formation of the salting-out effect on 1-propanol because the ILs binding water molecules made free water molecules decrease, leading to the precipitation of 1-propanol in the pseudobinary azeotropic system. By comparison, the cations and anions of ILs for the salting-out effect are in the order as follows: [Demim] + > [Bmim] + and NO 3 − > Br − . Additionally, the descending orders of the ILs for the salting-out effect are [Demim]NO 3 , [Demim]Br, [Bmim]NO 3 , and [Bmim]Br. 30% (molar fraction) of ILs can separate the azeotropic systems by breaking up the azeotropic point.

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Measurement and Correlation of the Solubility and Thermodynamic Properties of Ribavirin(II) in Nine Pure Solvents and (1-Propanol + Water) Binary Solvents

Cited by 6 publications

References 31 publications

Studies on the Stability and Deactivation Mechanism of Immobilized Ionic Liquids in Catalytic Esterification Reactions

Studies on the Stability and Deactivation Mechanism of Immobilized Ionic Liquids in Catalytic Esterification Reactions

Measurement and Correlation of Solubility of Methyl 1,2,4-Triazole-3-carboxylate in 14 Pure Solvents from 278.15 to 318.15 K

Measurement and Correlation of Isobaric VLE Data for 1-Propanol + Water + 1-Butyl/Decyl-3-methylimidazole Bromide/Nitrate ILs at 101.33 kPa

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