Adiabatic heat capacity and related properties of ammonium hexachlororuthenate, (NH4)2RuCl6, at temperatures from 5⩽T/K⩽325

The heat capacity of ammonium hexachloroosmate (NH4)2OsCl6 was measured at temperatures from T = 6 K to 325 K by adiabatic calorimetry. Two small anomalous regions were observed in the heat-capacity against temperature plot. The lower one, from 80 E (T/K) E 140, had an excess molar enthalpy of (21.1

The molar heat capacity of ammonium hexafluorogermanate NH GeF was measured 4 2 6 from T f 5 K to T s 326 K by adiabatic calorimetry. Our results show that neither a transition nor the metastability that sometimes occurs in R MX compounds was present. 2 6 T 0 ÄŽ . 4 Ž . From our results, the standar

The heat capacity of ammonium hexabromotellurate (NH4)2TeBr6 was measured at temperatures from T = 5 K to T = 345 K by adiabatic calorimetry. Two l-shaped transitions were present, one at T = (193.25 2 0.05) K, with DtrsS°m = (1.145 2 0.010)•R, and another at T = (212.2 2 0.2) K, with DtrsS°m = (0.1

The results from recent measurements of heat capacity, crystal structure and related properties as well as thermodynamic properties of 27 members of the hexahalogenated metal salts to include the alkali, ammoniated and deuterated forms are compared over a wide range of temperature. A detailed compar

The heat capacity of manganese monophosphide MnP has been determined by adiabatic shield calorimetry at temperatures from 5 K to 840 K. The heli-to ferromagnetic transition is noted only as a slightly enhanced heat capacity at T f 53 K. A -type heat capacity contribution with maximum at T s 289.5 K

The heat capacity of tungsten disilicide \(\mathrm{WSi}_{2.06}\) was measured over the temperature range \(5.9<(T / K)<341\) using adiabatic calorimetry. Our results show that neither a phase transition nor anomalies are present. A contribution from the electronic molar heat capacity is present and