IUPAC-NIST Solubility Data Series. 81. Hydrocarbons with Water and Seawater—Revised and Updated. Part 10. C11 and C12 Hydrocarbons with Water

Shaw, David G.; Ma̧czyński, Andrzej; Góral, Marian; Wiśniewska-Gocłowska, Barbara; Skrzecz, Adam; Owczarek, Iwona; Blazej, Krystyna; Haulait-Pirson, Marie-Claire; Hefter, Glenn; Kapuku, F.; Maczynska, Zofia; Szafrański, Andrzej

doi:10.1063/1.2134730

Cited by 28 publications

(5 citation statements)

References 4 publications

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“…For the present supramolecular system, humidity could in principle affect the EHUT (in powder before preparation and in solution) and the solvent. However, water has a very low solubility in dodecane [37,38]; hence, the effect is almost exclusively associated with EHUT. The sample treatment protocol which involves drying the EHUT powder for about 18 h using phosphorus pentoxide (P 2 O 5 ) helps in removing any humidity left in the solution and keeps the environment of the sample at a very low humidity level (<5%) (Fig.…”

Section: B Assessment Of the Humidity Control Setupmentioning

confidence: 99%

Humidity affects the viscoelastic properties of supramolecular living polymers

Louhichi

Jacob

Bouteiller

et al. 2017

Journal of Rheology

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We investigate the linear and nonlinear viscoelastic response of a supramolecular gelator formed by association of a bisurea monomer (EHUT) via hydrogen bonds, in a nonpolar organic solvent (dodecane). Past experimental studies reported contradictory results concerning the concentration dependence and the magnitude of the terminal relaxation time. The discrepancies among data were attributed to the presence of water and, in particular, its chain stopper effects on the EHUT supramolecular assembly. Here, we present new measurements with this system under conditions of controlled humidity, achieved by means of a simple setup developed for this purpose. We resolve the discrepancy and demonstrate that humidity (both during sample storage and measurement) can substantially affect the linear viscoelastic response (frequency spectra). The magnitude of the terminal relaxation time, s t , is significantly reduced (by as much as 1 order of magnitude) and its concentration dependence follows s t $ c 0.77 6 0.06. This scaling differs from the theoretical prediction with nearly double exponent (1.25). We tentatively attribute this difference to the polydispersity in the supramolecular chain length, which results mainly from the EHUT self-assembly association mechanism, and propose that constraint release effects of smaller chains should be considered as they may weaken the concentration dependence of the terminal relaxation. On the other hand, the magnitude of the plateau modulus G 0 is affected by humidity to a lesser degree (not exceeding 50%), whereas its concentration dependence is in accordance with predictions, G 0 $ c 2 6 0.21. Finally, the nonlinear viscoelastic properties are also affected, again experiencing weakening in the presence of humidity. V

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Section: B Assessment Of the Humidity Control Setupmentioning

confidence: 99%

Humidity affects the viscoelastic properties of supramolecular living polymers

Louhichi

Jacob

Bouteiller

et al. 2017

Journal of Rheology

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“…In addition, the liquid-liquid equilibrium data collected from the IUPAC-NIST Solubility Data Series volume 81, data from [10][11][12][13][14]23,24,27,22,25,26] were also considered. Only data labeled as "Recommended" or "Tentative" was used; no "Doubtful" data was collected.…”

Section: Resultsmentioning

confidence: 99%

Mutual solubilities of hydrocarbon–water systems with F-SAC

Possani

Simões

Staudt

et al. 2014

Fluid Phase Equilibria

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“…Calculated mutual solubilities in hydrocarbon + water systems at 298.00 K, x h -mole fraction of hydrocarbon in water, x w -mole fraction of water in the hydrocarbon. Whenever possible the recommended experimental data taken from [23][24][25] and/or [26][27][28][29][30][31][32][33][34][35][36][37] are reported in the second row. Aqueous solubilities for six hydrocarbons at 298.15 K measured by Dohányosová et al [39] are included for comparison.…”

Section: Calculated Solubility Valuesmentioning

confidence: 99%

“…The calculated solubilities were used as the reference values for the evaluation of experimental data in volume 81 of the IUPAC Solubility Data Series [26][27][28][29][30][31][32][33][34][35][36][37]. Based on all available literature data, the experimental recommended data for the mutual solubility of water with hydrocarbons for 64 systems were proposed.…”

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confidence: 99%

Predicted Mutual Solubilities in Water + C5-C12 Hydrocarbon Systems. Results at 298 K

Góral

Oracz

2021

ChemEngineering

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Mutual solubilities of water with n-alkanes, cycloalkanes, iso-alkanes (branched alkanes), alkenes, alkynes, alkadienes, and alkylbenzenes were calculated at 298 K for 153 systems not yet measured. Recommended data for 64 systems reported in the literature were compared with the predicted values. The solubility of the hydrocarbons in water was calculated with a thermodynamically based equation, which depends on specific properties of the hydrocarbon. The concentration in the second coexisting liquid phase (water in hydrocarbon) was calculated using liquid-liquid equilibrium with an equation of state, which takes into account the self-association of water and co-association of water with π-bonds of the hydrocarbons.

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IUPAC-NIST Solubility Data Series. 81. Hydrocarbons with Water and Seawater—Revised and Updated. Part 10. C11 and C12 Hydrocarbons with Water

Cited by 28 publications

References 4 publications

Humidity affects the viscoelastic properties of supramolecular living polymers

Humidity affects the viscoelastic properties of supramolecular living polymers

Mutual solubilities of hydrocarbon–water systems with F-SAC

Predicted Mutual Solubilities in Water + C5-C12 Hydrocarbon Systems. Results at 298 K

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