Thermoacoustic, Volumetric, and Viscometric Investigations in Binary Liquid System of Cyclohexanone with Benzyl Benzoate at <i>T</i> = 308.15, 313.15, and 318.15 K

Nayeem, Sk. Md; Kondaiah, M.; Sreekanth, K.; Rao, D. Krishna

doi:10.1155/2014/487403

Cited by 16 publications

(5 citation statements)

References 39 publications

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“…This change in Gibb's free energy includes various interactions, such as van der Waals, hydrogen bonds, and electrostatic and hydrophobic interactions. According to thermodynamics, ΔG bind determines the stability of any given protein-ligand complex, or the binding affinity of a ligand to a given acceptor (Bronowska 2011;Nayeem et al 2014). Moreover, the protein-ligand association extent is determined by the magnitude of the negativeΔG bind .…”

Section: Biothermodynamics Of the Protein-drug Complexmentioning

confidence: 99%

Target SARS-CoV-2: computation of binding energies with drugs of dexamethasone/umifenovir by molecular dynamics using OPLS-AA force field

Nayeem¹,

Sohail

Ridhima³

et al. 2021

Res. Biomed. Eng.

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Section: Biothermodynamics Of the Protein-drug Complexmentioning

confidence: 99%

Target SARS-CoV-2: computation of binding energies with drugs of dexamethasone/umifenovir by molecular dynamics using OPLS-AA force field

Nayeem¹,

Sohail

Ridhima³

et al. 2021

Res. Biomed. Eng.

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“…It indicates that weak forces exist in the binary system of ethanol (1) + isooctane (2). The negative values of the Z E indicate the decreasing strength of interactions between component molecules of the binary system of ethanol (1) + isooctane (2). − Attractive forces due to charge transfer complexes, dipole–dipole, and dipole-induced interactions have negative contributions in k T E . In this work, k T E is positive and increases with temperature increases, indicating there are weak interactions in the mixtures of ethanol + isooctane.…”

Section: Resultsmentioning

confidence: 58%

Speed of Sound and Excess Properties of (Ethanol + Isooctane) Binary System

Zhang

et al. 2022

J. Chem. Eng. Data

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We report the speeds of sound for the mixtures of ethanol (1) + isooctane (2) at 0.100, 0.300, 0.500, 0.700, 0.900 molar fractions of ethanol, respectively, at temperatures from 298.15 to 605.23 K along three isobaric lines from 3.0 to 7.0 MPa. On the basis of the experimental results and the literature density data, we evaluate the excess free length, excess acoustic impedance, and excess isothermal compressibility of ethanol (1) + isooctane (2) mixtures at 298.15 to 435.15 K and pressures below 5.0 MPa. Moreover, we fit the excess values by the Redlich–Kister polynomial equation. Finally, molecular interactions between ethanol and isooctane are analyzed.

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“…Strong interactions among the components of the mixture lead to the formation of molecular aggregates and more compact structures, resulting in a positive speed of sound deviation. Figure c shows a structure-breaking factor in the mixture for [(OH) 2 Im][TFSI] + 1-propanol, resulting in volume expansion, then the speed of sound through the mixture will be slower resulting in a negative deviation in the speed of sound. , On the other hand, Δ u decreases with increasing temperature. The decrease of the speed of sound deviation with temperature is connected with weakening of the (ionic liquid + solvent) interactions.…”

Section: Resultsmentioning

confidence: 99%

Density, Viscosity, and Speed of Sound of Pure and Binary Mixtures of Ionic Liquids Based on Sulfonium and Imidazolium Cations and Bis(trifluoromethylsulfonyl)imide Anion with 1-Propanol

et al. 2018

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We present densities, viscosities, and speed of sound of pure and binary mixtures of three ionic liquids, triethylsulfonium bis(trifluoromethylsulfonyl)imide, [Et3S][TFSI], 1-allyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide, [Amim][TFSI], and 1,3-dihydroxyimidazolium bis(trifluoromethylsulfonyl)imide, [(OH)2Im][TFSI], with 1-propanol from (293.15 to 343.15) K at 0.1 MPa. We also include densities, viscosities, and speed of sound of pure ionic liquid 1-butyl-1-methylpyrrolidinium bis(trifluoromethylsulfonyl)imide for validation. Densities and speed of sound are measured using a vibrating tube densimeter while viscosities are from a pellet microviscometer. The density and viscosity of pure ionic liquids are correlated by means of the Gardas and Coutinho and Vogel–Tammann–Fulcher equations, respectively. From the speed of sound measurements, we obtain isentropic compressibility, speed of sound deviation, and isentropic compressibility deviation for mixtures of ionic liquids and 1- propanol. Excess molar volumes and viscosity deviations are calculated from the experimental data. The excess molar volumes for the binary mixtures with [Et3S][TFSI] and [Amim][TFSI] present positive and negative deviations from ideality while those for the binary mixture with [(OH)2Im][TFSI] exhibit only negative deviations. Viscosity deviations for [Et3S][TFSI] + 1-propanol, [Amim][TFSI] + 1-propanol, and [(OH)2Im][TFSI] + 1-propanol are negative over the entire temperature range. The speed of sound deviations are positive and negative for the binary mixtures of 1-propanol with [Et3S][TFSI] and [Amim][TFSI], whereas those for the mixture with [(OH)2Im][TFSI] are negative.

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Thermoacoustic, Volumetric, and Viscometric Investigations in Binary Liquid System of Cyclohexanone with Benzyl Benzoate at T = 308.15, 313.15, and 318.15 K

Cited by 16 publications

References 39 publications

Target SARS-CoV-2: computation of binding energies with drugs of dexamethasone/umifenovir by molecular dynamics using OPLS-AA force field

Target SARS-CoV-2: computation of binding energies with drugs of dexamethasone/umifenovir by molecular dynamics using OPLS-AA force field

Speed of Sound and Excess Properties of (Ethanol + Isooctane) Binary System

Density, Viscosity, and Speed of Sound of Pure and Binary Mixtures of Ionic Liquids Based on Sulfonium and Imidazolium Cations and Bis(trifluoromethylsulfonyl)imide Anion with 1-Propanol

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