Chemical compounds with formula Cu in ThermoML

copper
Di, J.-T. Chen and Z.-C. Tan
Low-temperature heat capacities and standard molar enthalpy of formation of the solid-state coordination compound trans-Cu(Ala)2(s) (Ala = l- -alanine)
Thermochim. ActaYear: 2008Volume: 471Pages: 70-73.
Keywords: Trans-Cu(Ala)2(s), Adiabatic calorimetry, Heat-capacity, Isoperibol solution-reaction calorimetry, Standard molar enthalpy of formation, UV spectroscopy
DOI: 10.1016/j.tca.2008.02.024
ThermoML: http://trc.nist.gov/ThermoML/tca/j.tca.2008.02.024.xml
copper
A. V. Blokhin, Y. U. Paulechka and G. J. Kabo
Thermodynamic Properties of [C6mim][NTf2] in the Condensed State
J.Chem.Eng.DataYear: 2006Volume: 51Pages: 1377-1388.
DOI: 10.1021/je060094d
ThermoML: http://trc.nist.gov/journals/jced/2006v51/i04/je060094d.xml
copper
H. Flandorfer, A. Sabbar, C. Luef, M. Rechchach and H. Ipser
Enthalpies of mixing of liquid Bi Cu and Bi Cu Sn alloys relevant for lead-free soldering
Thermochim. ActaYear: 2008Volume: 472Pages: 1-10.
Keywords: Lead-free solders, Enthalpy of mixing, Liquid alloys, Calorimetry, Bi-Cu, Bi-Cu-Sn
DOI: 10.1016/j.tca.2008.02.023
ThermoML: http://trc.nist.gov/ThermoML/tca/j.tca.2008.02.023.xml
copper
Knott, S., Li, Z., Mikula, A.
Integral enthalpy of mixing of the liquid ternary Au Cu Sn system
Thermochim. ActaYear: 2008Volume: 470Pages: 12-17.
Keywords: Thermodynamic, Calorimetry, Enthalpy of mixing
DOI: 10.1016/j.tca.2008.01.014
ThermoML: http://trc.nist.gov/ThermoML/tca/j.tca.2008.01.014.xml
copper
Flandorfer, H., Saeed, U., Luef, C., Sabbar, A., Ipser, H.
Interfaces in lead-free solder alloys: Enthalpy of formation of binary Ag Sn, Cu Sn and Ni Sn intermetallic compounds
Thermochim. ActaYear: 2007Volume: 459Pages: 34-39.
Keywords: Calorimetry, Enthalpy of formation, Lead-free solder alloy, Intermetallic compounds
DOI: 10.1016/j.tca.2007.04.004
ThermoML: http://trc.nist.gov/ThermoML/tca/j.tca.2007.04.004.xml
copper
Z. Guo, M. Hindler, W. Yuan and A. Mikula
Thermodynamic properties of liquid Au-Cu-Sn alloys determined from electromotive force measurements
Thermochim. ActaYear: 2011Volume: 525Pages: 183-189.
Keywords: Au-Cu-Sn alloys, Activity, Thermodynamic properties, Electromotive force
DOI: 10.1016/j.tca.2011.08.011
ThermoML: http://trc.nist.gov/ThermoML/10.1016/j.tca.2011.08.011.xml
copper
R. Stevens and J. Boerio-Goates
Heat capacity of copper on the ITS-90 temperature scale using adiabatic calorimetry
J. Chem. Thermodyn.Year: 2004Volume: 36Pages: 857-863.
Keywords: Copper, Heat capacity, Calorimetric standards, Adiabatic calorimetry
DOI: 10.1016/2004steboe0
ThermoML: http://trc.nist.gov/journals/jct/2004v36/i10/2004steboe0.xml
copper
M. R. Bissengaliyeva, D. B. Gogol, S. T. Taymasova and N. S. Bekturganov
Measurement of Heat Capacity by Adiabatic Calorimetry and Calculation of Thermodynamic Functions of Standard Substances: Copper, Benzoic Acid, and Heptane (For Calibration of an Adiabatic Calorimeter)
J. Chem. Eng. DataYear: 2011Volume: 56Pages: 195-204.
DOI: 10.1021/je100658y
ThermoML: http://trc.nist.gov/ThermoML/10.1021/je100658y.xml
copper
D. Jendrzejczyk-Handzlik, M. Rechchach, W. Gierlotka, H. Ipser and H. Flandorfer
Enthalpies of mixing of liquid systems for lead free soldering: Cu-Sb-Sn system
Thermochim. ActaYear: 2011Volume: 512Pages: 217-224.
Keywords: Cu-Sb-Sn system, enthalpy of mixing
DOI: 10.1016/j.tca.2010.10.010
ThermoML: http://trc.nist.gov/ThermoML/10.1016/j.tca.2010.10.010.xml


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