Thermodynamic activities at 1273 K in the system cupric oxide-magnesium oxide using a solid-state galvanic cell

Abstract: Schmahl and Minzl [1] examined the phase relationships in the system CuO-MgO by the X-ray method. The phase relations at 1273K are characterized by two terminal solid solutions, the MgO-rich rock salt phase and the CuO-rich tenorite phase which are separated by three regions, i.e. the region in which the rock salt phase and a compound of CuO and MgO, the guggenite phase, coexist; the single-phase guggenite region over a varying composition range and a two-phase region in which the guggenite and the tenorite co… Show more

“…In the present work, a galvanic cell with MgF2 as the solid electrolyte was used to determine the Gibbs' energy of formation of MgCr204 in the temperature range 1220-1280K. The suitability and reliability of this technique to measure activities of MgO in solid solutions and compounds containing MgO are well documented [3][4][5].…”

Thermodynamic stability of magnesium chromite from e.m.f. measurements

“…In the present work, a galvanic cell with MgF2 as the solid electrolyte was used to determine the Gibbs' energy of formation of MgCr204 in the temperature range 1220-1280K. The suitability and reliability of this technique to measure activities of MgO in solid solutions and compounds containing MgO are well documented [3][4][5].…”

Thermodynamic stability of magnesium chromite from e.m.f. measurements

Applications of solid electrolytes in thermodynamic studies of materials: A review

Applications of solid electrolytes in thermodynamic studies of materials: A review