Thermodynamic Properties and Stability of In‐Doped SrCeO₃ Proton‐Conducting Ceramics

“…Since the direction of any chemical transformations is determined by the sign of Gibbs energy, DG = DHÀTDS, the value of enthalpy change D r H 5 is not sufficient to evaluate whether the reaction (5) takes place at room temperature or not. It was shown for a number of triple oxides [16,17] that the term DS was close to zero for the formation of triple oxides from binary oxides. Therefore, estimating the entropy of Bi 12.5-Dy 1.5 ReO 24.5 as entropy of 6.25Bi 2 O 3 + 0.75Dy 2 O 3 + 0.5Re 2 O 7 mixture, in our case it is possible to speak about the stability of Bi 12.5 Dy 1.5 ReO 24.5 on the basis of the reaction enthalpy sign.…”

Calorimetric investigation of new Bi12.5Dy1.5ReO24.5 phase

“…Since the direction of any chemical transformations is determined by the sign of Gibbs energy, DG = DHÀTDS, the value of enthalpy change D r H 5 is not sufficient to evaluate whether the reaction (5) takes place at room temperature or not. It was shown for a number of triple oxides [16,17] that the term DS was close to zero for the formation of triple oxides from binary oxides. Therefore, estimating the entropy of Bi 12.5-Dy 1.5 ReO 24.5 as entropy of 6.25Bi 2 O 3 + 0.75Dy 2 O 3 + 0.5Re 2 O 7 mixture, in our case it is possible to speak about the stability of Bi 12.5 Dy 1.5 ReO 24.5 on the basis of the reaction enthalpy sign.…”

Calorimetric investigation of new Bi12.5Dy1.5ReO24.5 phase

ChemInform Abstract: Thermodynamic Properties and Stability of In‐Doped SrCeO₃ Proton‐Conducting Ceramics.

Synthesis and thermochemistry of new phase BaCe0.7Nd0.2In0.1O2.85