Gas-phase enthalpies of formation of ethyl hydroxybenzoates: An experimental and theoretical approach

“…The equipment as well as more details on the procedure have been described elsewhere. 19,20 However, the equipment was recently calibrated and tested, 4 and the most relevant aspects are described below.…”

“…21 The energy equivalent of the calorimeter was measured as ε(calor) = (10123.0 ± 0.7) J•K −1 , where the uncertainty is the standard deviation of the mean, calculated from seven experiments. 4 M4MB's samples were burned as pellets, whereas M2MB's samples, which are liquid at room temperature, were burned inside polyethylene bags. These bags have a combustion energy of −(46.3726 ± 0.0022) kJ•g −1 , 22 and the cotton yarn used (empirical formula: CH 1.742 O 0.921 19 ) has a combustion energy of −(16.9541 ± 0.0031) kJ•g −1 , which was determined in this work and is given in Table S1 of the Supporting Information.…”

“…The combustion energies of the MMBs were determined with a static-bomb isoperibolic calorimeter. The equipment as well as more details on the procedure have been described elsewhere. , However, the equipment was recently calibrated and tested, and the most relevant aspects are described below.…”

“…1−3 Therefore, the accurate thermochemical characterization of these compounds turns out to be of great importance, and consequently their thermochemical properties have been widely studied and described in several papers. For instance, our research group has recently carried out a thermochemical study of ethyl and methyl hydroxybenzoates, 4,5 wherein the energetic effects stemming from exchanging the position of the hydroxy group within the aromatic ring, as well as the energetic effects caused by increasing the length of the ester chain, have been discussed. Furthermore, Almeida et al have studied structural properties and reported thermochemical properties of these types of substances.…”

“…In addition, they are commonly used as preservatives in the food and cosmetic industry due to their inert and inexpensive qualities. − Therefore, the accurate thermochemical characterization of these compounds turns out to be of great importance, and consequently their thermochemical properties have been widely studied and described in several papers. For instance, our research group has recently carried out a thermochemical study of ethyl and methyl hydroxybenzoates, , wherein the energetic effects stemming from exchanging the position of the hydroxy group within the aromatic ring, as well as the energetic effects caused by increasing the length of the ester chain, have been discussed. Furthermore, Almeida et al have studied structural properties and reported thermochemical properties of these types of substances. − Especially, and closely related to our interests, Almeida et al have studied thermochemical properties of methyl 4-methoxybenzoate, which can be found as a volatile component in several plants and fungi. − …”

Thermochemical Study of Methyl n-Methoxybenzoates: An Experimental and Computational Approach

“…The equipment as well as more details on the procedure have been described elsewhere. 19,20 However, the equipment was recently calibrated and tested, 4 and the most relevant aspects are described below.…”

“…21 The energy equivalent of the calorimeter was measured as ε(calor) = (10123.0 ± 0.7) J•K −1 , where the uncertainty is the standard deviation of the mean, calculated from seven experiments. 4 M4MB's samples were burned as pellets, whereas M2MB's samples, which are liquid at room temperature, were burned inside polyethylene bags. These bags have a combustion energy of −(46.3726 ± 0.0022) kJ•g −1 , 22 and the cotton yarn used (empirical formula: CH 1.742 O 0.921 19 ) has a combustion energy of −(16.9541 ± 0.0031) kJ•g −1 , which was determined in this work and is given in Table S1 of the Supporting Information.…”

“…The combustion energies of the MMBs were determined with a static-bomb isoperibolic calorimeter. The equipment as well as more details on the procedure have been described elsewhere. , However, the equipment was recently calibrated and tested, and the most relevant aspects are described below.…”

“…1−3 Therefore, the accurate thermochemical characterization of these compounds turns out to be of great importance, and consequently their thermochemical properties have been widely studied and described in several papers. For instance, our research group has recently carried out a thermochemical study of ethyl and methyl hydroxybenzoates, 4,5 wherein the energetic effects stemming from exchanging the position of the hydroxy group within the aromatic ring, as well as the energetic effects caused by increasing the length of the ester chain, have been discussed. Furthermore, Almeida et al have studied structural properties and reported thermochemical properties of these types of substances.…”

“…In addition, they are commonly used as preservatives in the food and cosmetic industry due to their inert and inexpensive qualities. − Therefore, the accurate thermochemical characterization of these compounds turns out to be of great importance, and consequently their thermochemical properties have been widely studied and described in several papers. For instance, our research group has recently carried out a thermochemical study of ethyl and methyl hydroxybenzoates, , wherein the energetic effects stemming from exchanging the position of the hydroxy group within the aromatic ring, as well as the energetic effects caused by increasing the length of the ester chain, have been discussed. Furthermore, Almeida et al have studied structural properties and reported thermochemical properties of these types of substances. − Especially, and closely related to our interests, Almeida et al have studied thermochemical properties of methyl 4-methoxybenzoate, which can be found as a volatile component in several plants and fungi. − …”

Thermochemical Study of Methyl n-Methoxybenzoates: An Experimental and Computational Approach

Review on thermochemistry of parabens: evaluation of experimental data with complementary measurements, structure–property correlations and quantum chemical calculations

Phase change enthalpies of some monosubstituted derivatives of adamantane: an experimental and theoretical study