Physicochemical study of diethylmethylammonium methanesulfonate under anhydrous conditions

Abstract: The protic ionic liquid diethylmethylammonium methanesulfonate ([DEMA][OMs]) was analyzed in depth by differential scanning calorimetry (DSC), nuclear magnetic resonance (NMR) spectroscopy, Fourier transform infrared (FT-IR) spectroscopy, 2 Raman spectroscopy and broadband dielectric spectroscopy (BDS) under anhydrous conditions. Karl Fischer titration, NMR and FT-IR spectra confirmed the high purity of [DEMA][OMs]. The melting point (37.7 °C) and the freezing point (14.0 °C) obtained by DSC agree well with th… Show more

“…It was shown that the obtained melting point ( T m = 283.6 K with Δ m H = 9.78 kJ·mol –1 ) is in good agreement with the literature value reported by Nakamoto and Watanabe . The melting point is significantly lower than the value reported by Pan et al (310.85 K) . It is worth adding that the water content in the methanesulfonate-based IL tested in this work is high as presented in Table .…”

“…Because Nakamoto and Watanabe do not show water content in [N H,1,2,2 ]­[CH 3 SO 3 ], there is no certainty whether the declared melting point applies to a pure compound. In addition, the melting point published by Pan et al for this IL is definitely higher, which results from a lower water content. Despite this, this temperature is also difficult to consider as the temperature of a pure IL as the authors declare a water content of 7000 ppm.…”

“…19 The melting point is significantly lower than the value reported by Pan et al (310.85 K). 20 It is worth adding that the water content in the methanesulfonate-based IL tested in this work is high as presented in Table 2. Therefore, the melting temperature reported in Table 3 is actually the melting point of the (IL + water, x 1 = 0.7782) system.…”

New Experimental Data on Thermodynamic Properties of the Aqueous Solution of N,N-Diethyl-N-methylammonium Bromide and N,N-Diethyl-N-methylammonium Methanesulfonate

“…It was shown that the obtained melting point ( T m = 283.6 K with Δ m H = 9.78 kJ·mol –1 ) is in good agreement with the literature value reported by Nakamoto and Watanabe . The melting point is significantly lower than the value reported by Pan et al (310.85 K) . It is worth adding that the water content in the methanesulfonate-based IL tested in this work is high as presented in Table .…”

“…Because Nakamoto and Watanabe do not show water content in [N H,1,2,2 ]­[CH 3 SO 3 ], there is no certainty whether the declared melting point applies to a pure compound. In addition, the melting point published by Pan et al for this IL is definitely higher, which results from a lower water content. Despite this, this temperature is also difficult to consider as the temperature of a pure IL as the authors declare a water content of 7000 ppm.…”

“…19 The melting point is significantly lower than the value reported by Pan et al (310.85 K). 20 It is worth adding that the water content in the methanesulfonate-based IL tested in this work is high as presented in Table 2. Therefore, the melting temperature reported in Table 3 is actually the melting point of the (IL + water, x 1 = 0.7782) system.…”

New Experimental Data on Thermodynamic Properties of the Aqueous Solution of N,N-Diethyl-N-methylammonium Bromide and N,N-Diethyl-N-methylammonium Methanesulfonate

“…To study σ dc in terms of energy landscape for the related temperature range, the activation energies in phase I and the melt phase are calculated based on eqn (6) , which can be obtained by performing partial differentiation of eqn (3) in its logarithmic form with respect to T ( eqn (5) ). 41,46,47 E a = RT 2 (∂ln σ / ∂T ) E a = RBT 2 /( T − T V ) 2 − RT /2 …”

“…The system was then cooled down to 293 K. Afterwards, the sample was heated up again to 413 K with temperature interval of 1 K. The detailed operation process can be found in ref. 41 .…”

Phase-dependent dielectric properties and proton conduction of neopentyl glycol

Novel chitosan-ionic liquid immobilized membranes for PEM fuel cells operating above the boiling point of water