The standard molar enthalpy of formation of indium telluride In2Te5

Direct synthesis of indium telluride a-In2Te3 was carried out in a calorimetric bomb. The standard molar enthalpy of formation of a-In2Te3 was found to be -(188.0 2 1.3) kJ•mol -1 .

The standard molar enthalpy of formation of indium monotelluride InTe(cr) was refined and found to be -(71.220.3) kJ•mol -1 . The standard molar change of energy at the temperature 298.15 K for the reaction: In4Te3(cr)+Te(cr) = 4InTe(cr) was determined; the standard molar enthalpy of formation of In

Direct syntheses of indium tellurides \(\operatorname{In} \mathrm{Te}\) and \(\operatorname{In}_{0.878} \mathrm{Te}\) were carried out in a calorimetric bomb. The energies of formation of these compounds were found not to be significantly different. The standard molar enthalpy of formation of \(\mat

The standard molar enthalpy of combustion of fluorinated fullerene C 60 F 48 was determined by rotating-bomb calorimetry, c H o m = -(24638 ± 163) kJ • mol -1 . Using this result and the standard molar enthalpy of sublimation, sub H o m = (109 ± 7) kJ • mol -1 , the values of the standard molar enth

The molar enthalpies of solution of ZrTe3O8, TeO2, and ZrF4, in HF(aq) of concentration 10 mol•dm -3 have been measured using an isoperibol calorimeter. From the results and other auxiliary quantities, the standard molar enthalpy of formation of ZrTe3O8(s) has been determined to be DfH°m(298.15 K)=-

The standard ( p o = 0.1 MPa) molar enthalpy of combustion at T = 298.15 K of crystalline benzanthrone was determined as c H o m = -(8114.7 ± 2.0) kJ • mol -1 by static-bomb calorimetry, and the standard molar enthalpy of formation of the crystal at T = 298.15 K was derived as f H o m (cr) = -(4.1 ±