Unified non-fitting explicit formulation of thermodynamic properties for five compounds

•We report a unified explicit formulation of Gibbs free energy for three compounds.•The proposed formulation involves experimental data of six molecular constants.•The developed formulation contains only one adjustable parameter.•We predict four thermodynamic properties of the considered three subst...

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Published inJournal of molecular structure Vol. 1294; p. 136543
Main Authors Liu, Guan-Hong, Ding, Qun-Chao, Wang, Chao-Wen, Jia, Chun-Sheng
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.12.2023
Subjects
Gibbs free energy
Hydrogen cyanide
Molecular constant
Nitrous oxide
Thermodynamic property
Unified non-fitting explicit formulation
Hydrogen cyanide
Molecular constant
Gibbs free energy
Nitrous oxide
Thermodynamic property
Unified non-fitting explicit formulation
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Abstract •We report a unified explicit formulation of Gibbs free energy for three compounds.•The proposed formulation involves experimental data of six molecular constants.•The developed formulation contains only one adjustable parameter.•We predict four thermodynamic properties of the considered three substances.•The predicted values are in excellent agreement with the NIST data. The explicit formulations of the Gibbs free energy subject to the concerned species are useful to determine the conditions for minimizing the total Gibbs free energy of a system with a simple way. Here, we develop a unified non-fitting explicit formulation of the Gibbs free energy for five compounds, including N2O, ClBO, OBBr, HBO and HCN. The established Gibbs free energy formulation is correlative only with masses of atoms and experimental data of six molecular constants of triatomic molecules, and away from requirement of fitting a plenty of experimental spectroscopic data or calorimetric data in conventional empirical expressions. For five compounds under consideration, the average absolute deviations between the predicted Gibbs free energy values and the data provided in the National Institute of Standards and Technology (NIST) database are within the range of 0.098% to 0.146%. Employing the developed unified non-fitting Gibbs free energy formulation with high accuracy, the theoretically predicted values of the entropy, enthalpy, and isobaric heat capacity for the concerned five substances are acquired, and the coresponding average absolute deviations from the NIST data are within the ranges of 0.166% to 0.263%, 0.571% to 2.533%, and 1.059% to 1.936%, respectively. [Display omitted]
AbstractList •We report a unified explicit formulation of Gibbs free energy for three compounds.•The proposed formulation involves experimental data of six molecular constants.•The developed formulation contains only one adjustable parameter.•We predict four thermodynamic properties of the considered three substances.•The predicted values are in excellent agreement with the NIST data. The explicit formulations of the Gibbs free energy subject to the concerned species are useful to determine the conditions for minimizing the total Gibbs free energy of a system with a simple way. Here, we develop a unified non-fitting explicit formulation of the Gibbs free energy for five compounds, including N2O, ClBO, OBBr, HBO and HCN. The established Gibbs free energy formulation is correlative only with masses of atoms and experimental data of six molecular constants of triatomic molecules, and away from requirement of fitting a plenty of experimental spectroscopic data or calorimetric data in conventional empirical expressions. For five compounds under consideration, the average absolute deviations between the predicted Gibbs free energy values and the data provided in the National Institute of Standards and Technology (NIST) database are within the range of 0.098% to 0.146%. Employing the developed unified non-fitting Gibbs free energy formulation with high accuracy, the theoretically predicted values of the entropy, enthalpy, and isobaric heat capacity for the concerned five substances are acquired, and the coresponding average absolute deviations from the NIST data are within the ranges of 0.166% to 0.263%, 0.571% to 2.533%, and 1.059% to 1.936%, respectively. [Display omitted]
ArticleNumber 136543
Author Jia, Chun-Sheng
Liu, Guan-Hong
Ding, Qun-Chao
Wang, Chao-Wen
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Keywords Hydrogen cyanide
Molecular constant
Gibbs free energy
Nitrous oxide
Thermodynamic property
Unified non-fitting explicit formulation
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Snippet •We report a unified explicit formulation of Gibbs free energy for three compounds.•The proposed formulation involves experimental data of six molecular...
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SubjectTerms Gibbs free energy
Hydrogen cyanide
Molecular constant
Nitrous oxide
Thermodynamic property
Unified non-fitting explicit formulation
Title Unified non-fitting explicit formulation of thermodynamic properties for five compounds
URI https://dx.doi.org/10.1016/j.molstruc.2023.136543
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