Topic
Standard molar entropy
About: Standard molar entropy is a research topic. Over the lifetime, 1586 publications have been published within this topic receiving 29886 citations.
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TL;DR: In this article , the development of a heterogeneous magnetic nanocatalyst composed of SrO/MgFe2O4 (Sr/MGF) for efficient methanolysis of waste cooking oil (WCO) is addressed.
5 citations
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TL;DR: In this paper, the authors used drop-calorimetric results to determine enthalpy increments relative to 298.15 K of NaLiSO4 and the heat capacity to 1200 K has been deduced from these results.
5 citations
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TL;DR: In this paper, the vapour pressures and densities of a binary liquid mixture were measured at 182.32 K (the triple point temperature of dinitrogen oxide) and at a slightly higher temperature (184.03 K).
5 citations
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TL;DR: In this article, the authors test the applicability of a similar suggested form of TDR for Cp prediction against the experimental values, in view of the availability of a few experimental heat capacity values, and the result suggests that their previous TDR equations for the prediction of ΔfGo and S298o are likely to be highly reliable.
5 citations
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TL;DR: In this article, the temperature dependence of the heat capacity of a first-generation siloxane dendrimer with terminal trimethylsilyl groups was determined for the first time via high-precision adiabatic vacuum calorimetry in the temperature range of 6 to 347 K, and by differential scanning caloric analysis in the range of 330 to 410 K.
Abstract: The temperature dependence of the heat capacity of a first-generation siloxane dendrimer with terminal trimethylsilyl groups is determined for the first time via high-precision adiabatic vacuum calorimetry in the temperature range of 6 to 347 K, and by differential scanning calorimetry in the temperature range of 330 to 410 K. An anomalous change in heat capacity is detected in the range of T = 42–76 K. A transition is observed in the range of T = 137–153 K, due to devitrification of the dendrimer. The thermal stability of the compound is studied via thermogravimetric analysis. The obtained experimental data are used to calculate standard thermodynamic functions of the dendrimer in the temperature range T → 0 to T = 400 K, along with the standard entropy of its formation at T = 298.15 K.
5 citations