Heat capacities at 298.15 K of the extended [C_nC₁im][Ntf₂] ionic liquid seriesROCHA, Marisa A. A; BASTOS, Margarida; COUTINHO, Joao A. P et al.Journal of chemical thermodynamics. 2012, Vol 53, pp 140-143, issn 0021-9614, 4 p.Article

Molar heat capacities of choline chloride-based deep eutectic solvents and their binary mixtures with waterLERON, Rhoda B; LI, Meng-Hui.Thermochimica acta. 2012, Vol 530, pp 52-57, issn 0040-6031, 6 p.Article

Evidence for low-temperature isotopic ordering in methyl-monodeuterated lithium acetate dihydrateSCHRÖDER, F; WINKLER, B; BAUER, J. D et al.Journal of chemical thermodynamics. 2012, Vol 54, pp 373-376, issn 0021-9614, 4 p.Article

Propriétés thermodynamiques de la phase α de KGd(MoO4)2 dans l'intervalle de 5-313 K et différence des capacités calorifiques des phases α et β dues à la cristallographieFROLOVA, G. I; KOZEEVA, L. P; PAUKOV, I. E et al.Žurnal fizičeskoj himii. 1983, Vol 57, Num 9, pp 2150-2154, issn 0044-4537Article

Thermal testing and numerical simulation of gypsum wallboards incorporated with different PCMs contentBORREGUERO, Ana M; LUZ SANCHEZ, M; VALVERDE, José Luis et al.Applied energy. 2011, Vol 88, Num 3, pp 930-937, issn 0306-2619, 8 p.Article

Chemistry and structural chemistry of phosphides and polyphosphides. XXXII: Heat capacity measurements of LiP₁₅ and KP₁₅SANTANDREA, R; GMELIN, E; SANTANDREA, C et al.Thermochimica acta. 1983, Vol 67, Num 2-3, pp 263-269, issn 0040-6031Article

A comprehensive study of the heat capacity of CsF from T = 5 K to T=1400 KBENES, O; KONINGS, R. J. M; SEDMIDUBSKY, D et al.Journal of chemical thermodynamics. 2013, Vol 57, pp 92-100, issn 0021-9614, 9 p.Article

Thermophysical properties of intermetallic Mn₃MC perovskites. I: Heat capacity of manganese gallium carbide Mn₃GacGARCIA, J; BARTOLOME, J; GONZALEZ, D et al.Journal of chemical thermodynamics. 1983, Vol 15, Num 11, pp 1059-1069, issn 0021-9614Article

Parametric space distribution effects of wall heat capacity and thermal resistance on the dynamic thermal behavior of walls and structuresTSILINGIRIS, P. T.Energy and buildings. 2006, Vol 38, Num 10, pp 1200-1211, issn 0378-7788, 12 p.Article

A calorimetric and thermodynamic investigation of potassium uranyl tungstate K2[(UO2)(W2O8)]LELET, Maxim I; OGURTSOVA, Olga V; SULEIMANOV, Evgeny V et al.Journal of chemical thermodynamics. 2013, Vol 57, pp 430-435, issn 0021-9614, 6 p.Article

P, p, T and heat capacity measurements of (α-pinene + β-pinene) mixtures over the temperature range 283.15 K to 358.15 K and pressures up to 40 MPa: Experiments and modellingLANGA, Elisa; PALAVRA, Antonio M. F; LOURENCO, Maria J. V et al.Journal of chemical thermodynamics. 2013, Vol 57, pp 493-499, issn 0021-9614, 7 p.Article

Molar heat capacity of several aqueous solutions of n-[tris(hydroxymethyl)methyl-3-amino]propanesulfonic acid (TAPS) + glycolLU, Yu-Chyi; CAPARANGA, Alvin R; LERON, Rhoda B et al.Thermochimica acta. 2012, Vol 540, pp 69-73, issn 0040-6031, 5 p.Article

A simple correlation for prediction of heat capacities of ionic liquidsFARAHANI, Nasrin; GHARAGHEIZI, Farhad; ALIREZA MIRKHANI, Seyyed et al.Fluid phase equilibria. 2013, Vol 337, pp 73-82, issn 0378-3812, 10 p.Article

Heat capacity of several mixed-solvent desiccants containing glycol + water + MgCl₂LU, Yu-Chyi; CAPARANGA, Alvin R; LI, Meng-Hui et al.Thermochimica acta. 2012, Vol 536, pp 24-29, issn 0040-6031, 6 p.Article

Estimation of heat capacity of boiling of organic compoundsSANGHVI, Ritesh; YALKOWSKY, Samuel H.Industrial & engineering chemistry research. 2006, Vol 45, Num 1, pp 451-453, issn 0888-5885, 3 p.Article

Thermodynamic properties of trans-azobenzene and trans-stilbeneVAN MILTENBURG, J. C; BOUWSTRA, J. A.Journal of chemical thermodynamics. 1984, Vol 16, Num 1, pp 61-65, issn 0021-9614Article

Capacités calorifiques spécifiques et capacités calorifiques spécifiques partielles des solutions solides de nitrate de potassium dans le nitrate d'ammoniumSORINA, G. A; KOZLOVSKAYA, G. M; TSEKHANSKAYA, YU. V et al.Žurnal fizičeskoj himii. 1984, Vol 58, Num 4, pp 972-974, issn 0044-4537Article

Thermophysical properties of the intermetallic Mn₃MN perovskites. II : Heat capacity of manganese zinc nitride : Mn₃ZnN and manganese gallium nitride : Mn₃GaNGARCIA, J; BARTOLOME, J; GONZALEZ, D et al.Journal of chemical thermodynamics. 1983, Vol 15, Num 11, pp 1041-1057, issn 0021-9614Article

Crystal structures, luminescence, and thermodynamic properties of lanthanide complexes with 3,5-dimethoxybenzoic acid and 1,10-phenanthrolineZHENG, Jun-Ru; NING REN; ZHANG, Jian-Jun et al.Journal of chemical thermodynamics. 2013, Vol 57, pp 169-177, issn 0021-9614, 9 p.Article

Heat capacity, enthalpy and entropy of SrBi₂O₄ and Sr₂Bi₂O₅LEITNER, J; SEDMIDUBSKY, D; RUZICKA, K et al.Thermochimica acta. 2012, Vol 531, pp 60-65, issn 0040-6031, 6 p.Article

Heat capacities and volumes of monoprotonation and diprotonation of cryptand 222 in water at 298.15 KMOREL-DESROSIERS, N; MOREL, J.-P.Journal of physical chemistry (1952). 1984, Vol 88, Num 5, pp 1023-1027, issn 0022-3654Article

Capacité calorifique de l'alumohydrure de césium CsAlH4 dans l'intervalle de température 10-320 KGORBUNOV, V. E; GAVRICHEV, K. S; BAKUM, S. I et al.Žurnal neorganičeskoj himii. 1984, Vol 29, Num 5, pp 1329-1331, issn 0044-457XArticle

Heat capacity and thermodynamic functions of CsCrCl³ and RbCrCl₃. Structural phase transitionsGARCIA, J; BARTOLOME, J; GONZALEZ, D et al.Journal of chemical thermodynamics. 1983, Vol 15, Num 12, pp 1109-1126, issn 0021-9614Article

Heat capacity of zinc oxysulfate from 7.5 to 309.4 K with a transition from 270 to 306 KBEYER, R. P.Journal of chemical thermodynamics. 1983, Vol 15, Num 9, pp 835-840, issn 0021-9614Article

Thermodynamic properties of molecular organic crystals containing nitrogen, oxygen and sulfur. III: Molar heat capacities measured by differential scanning calorimetryDE WIT; OFFRINGA, J. C. A; DE KRUIF, C. G et al.Thermochimica acta. 1983, Vol 65, Num 1, pp 43-51, issn 0040-6031Article