Equilibrium and relaxation dielectric properties of 1,2-ethanediol

“…when the parameters of the DH and DC (β DC , τ DCe ) equations are related as m DH = 1, 1 − n DH = β DC , ω DHe = 1/τ DCe [16,18]. As a result of combining our data on DRS with those available in the literature, the temperature ranges were extended to the glass transition region: 161-453 K for ED [7,8], 175-423 K for PD [9,22], and 238-423 K for HT [6]. The ε s , τ DHe , n DH , ε ∞DH , and (ε s − ε ∞DH ) values were determined by the least squares method using the Brent minimization algorithm.…”

“…In our previous works on the dielectric spectra of 1,2-ethanediol (ED) [7,8], 1,2-propanediol (PD) [9,22], and 1,2,6hexanetriol (HT) [6], we have drawn on the data on the microwave spectra (MS) and calorimetry to determine the parameters of the DH model required for calculating μ c . This work solved two problems.…”

“…The experimental data on the dispersion ε(ω) of ED [7,8], PD [9,22], and HT [6] we have previously analyzed using the DH equation DH …”

“…The slowest are the processes of synchronous exchange of molecules between the neighboring clusters, which are considered as fluctuations of the molecule exchange, and the correlation between them is described by the parameter m DH . When choosing the parameters of equation (1) to describe the studied DRS of ED, PD, and HT, we took into account that the authors of [6][7][8] described DRS of these substances by the Davidson-Cole (DC) equation. Hence, DH equation (1) was used in the form equivalent to the DC equation, i.e.…”

“…By now, a number of papers have been published that analyze experimental MS of ED [7,23] and PD [24][25][26][27] molecules in the gas phase and estimate the energies of different conformers by quantum chemical calculations. For ED, the most stable are gauche-conformers with μ vt = 2.28 D [7,23].…”

Relaxation processes of the structural rearrangement of clusters in liquids: 1,2-ethanediol, 1,2-propanediol, and 1,2,6-hexanetriol

“…when the parameters of the DH and DC (β DC , τ DCe ) equations are related as m DH = 1, 1 − n DH = β DC , ω DHe = 1/τ DCe [16,18]. As a result of combining our data on DRS with those available in the literature, the temperature ranges were extended to the glass transition region: 161-453 K for ED [7,8], 175-423 K for PD [9,22], and 238-423 K for HT [6]. The ε s , τ DHe , n DH , ε ∞DH , and (ε s − ε ∞DH ) values were determined by the least squares method using the Brent minimization algorithm.…”

“…In our previous works on the dielectric spectra of 1,2-ethanediol (ED) [7,8], 1,2-propanediol (PD) [9,22], and 1,2,6hexanetriol (HT) [6], we have drawn on the data on the microwave spectra (MS) and calorimetry to determine the parameters of the DH model required for calculating μ c . This work solved two problems.…”

“…The experimental data on the dispersion ε(ω) of ED [7,8], PD [9,22], and HT [6] we have previously analyzed using the DH equation DH …”

“…The slowest are the processes of synchronous exchange of molecules between the neighboring clusters, which are considered as fluctuations of the molecule exchange, and the correlation between them is described by the parameter m DH . When choosing the parameters of equation (1) to describe the studied DRS of ED, PD, and HT, we took into account that the authors of [6][7][8] described DRS of these substances by the Davidson-Cole (DC) equation. Hence, DH equation (1) was used in the form equivalent to the DC equation, i.e.…”

“…By now, a number of papers have been published that analyze experimental MS of ED [7,23] and PD [24][25][26][27] molecules in the gas phase and estimate the energies of different conformers by quantum chemical calculations. For ED, the most stable are gauche-conformers with μ vt = 2.28 D [7,23].…”

Relaxation processes of the structural rearrangement of clusters in liquids: 1,2-ethanediol, 1,2-propanediol, and 1,2,6-hexanetriol

Static dielectric constant of ethane-1,2-diol

Permittivity of (40 nm and 80 nm) alumina nanofluids in ethylene glycol at different temperatures