Chemical compounds with formula HNaO in ThermoML

sodium hydroxide
E. Konigsberger, S. Bevis, G. Hefter and P. M. May
A Comprehensive Model of Synthetic Bayer Liquors. Part 2. Densities of Alkaline Aluminate Solutions to 90 deg C
J. Chem. Eng. DataYear: 2005Volume: 50Pages: 1270-1276.
Keywords: Density, Sodium aluminate, Sodium hydroxide, Bayer liquors, Pitzer model
DOI: 10.1021/je0500126
ThermoML: http://trc.nist.gov/journals/jced/2005v50/i04/je0500126.xml
sodium hydroxide
C. Hipolito and J. P. Leal
Thermochemistry of Li, Na, K, Rb and Cs alkylated phenoxides
Thermochim. ActaYear: 2005Volume: 429Pages: 125-131.
Keywords: Thermochemistry, Alkali metals, Enthalpy of formation, Phenoxides, Lattice energy
ThermoML: http://trc.nist.gov/journals/tca/2005v429/i02/2005hiplea0.xml
sodium hydroxide
T. Yuan, J. Wang and Z. Li
Measurement and modelling of solubility for calcium sulfate dihydrate and calcium hydroxide in NaOH/KOH solutions
Fluid Phase Equilib.Year: 2010Volume: 297Pages: 129-137.
Keywords: Solubility, Calcium sulfate dihydrate, Calcium hydroxide, Modelling, Pitzer model
DOI: 10.1016/j.fluid.2010.06.012
ThermoML: http://trc.nist.gov/ThermoML/fpe/j.fluid.2010.06.012.xml
sodium hydroxide
X.-M. Peng, Y.-F. Hu and C.-W. Jin
Solubilities of imidazolium-based ionic liquids in aqueous salt solutions at 298.15 K
J. Chem. Thermodyn.Year: 2011Volume: 43Pages: 1174-1177.
Keywords: Ionic liquids, Solubilities, Aqueous solutions, Inorganic salts
DOI: 10.1016/j.jct.2011.03.002
ThermoML: http://trc.nist.gov/ThermoML/10.1016/j.jct.2011.03.002.xml
sodium hydroxide
Ziemer, S. P.[S P], Niederhauser, T. L., Merkley, E. D., Price, J. L., Sorenson, E. C., McRae, B. R., Patterson, B. A., Origlia-Luster, M. L., Woolley, E. M.[Earl M.]
Thermodynamics of proton dissociations from aqueous glycine at temperatures from 278.15 to 393.15 K, molalities from 0 to 1.0 mol.kg-1, and at the pressure 0.35 MPa: Apparent molar heat capacities and apparent molar volumes of glycine, glycinium chloride, and sodium glycinate
J. Chem. Thermodyn.Year: 2006Volume: 38Pages: 467-483.
Keywords: Apparent molar volume, Apparent molar heat capacity, Glycine, 2-Aminoacetic acid, 2-Aminoethanoic acid, Zwitterion, Glycinium chloride, Sodium glycinate, Proton dissociations, Acidity, Young,s Rule
DOI: 10.1016/j.jct.2005.06.017
ThermoML: http://trc.nist.gov/journals/jct/2006v38/i04/j.jct.2005.06.017.xml
sodium hydroxide
Ziemer, S. P., Woolley, E. M.[Earl M.]
Thermodynamics of proton dissociations from aqueous threonine and isoleucine at temperatures from (278.15 to 393.15) K, molalities from (0.01 to 1.0) mol * kg-1, and at the pressure 0.35 MPa: Apparent molar heat capacities and apparent molar volumes of zwitterionic, protonated cationic, and deprotonated anionic forms
J. Chem. Thermodyn.Year: 2007Volume: 39Pages: 67-87.
Keywords: Apparent molar volume, Apparent molar heat capacity, Threonine, 2-Amino-3-hydroxybutanoic acid, Isoleucine, 2-Amino-3-methylpentanoic acid, Zwitterion, Threoninium chloride, Isoleucininium chloride, Sodium threoninate, Sodium isoleucinate, Proton dis
DOI: 10.1016/j.jct.2006.05.013
ThermoML: http://trc.nist.gov/ThermoML/jct/j.jct.2006.05.013.xml
sodium hydroxide
Ziemer, S. P., Woolley, E. M.
Thermodynamics of the first and second proton dissociations from aqueous L-aspartic acid and L-glutamic acid at temperatures from (278.15 to 393.15) K and at the pressure 0.35 MPa: Apparent molar heat capacities and apparent molar volumes of zwitterionic, protonated cationic, and deprotonated anionic forms at molalities from (0.002 to 1.0) mol Ae kg 1
J. Chem. Thermodyn.Year: 2007Volume: 39Pages: 645-666.
Keywords: Apparent molar volume, Apparent molar heat capacity, L-Aspartic acid, 2-Aminobutanedioic acid, 2-Aminosuccinic acid, L-Glutamic acid, 2-Aminopentanedioic acid, 2-Aminoglutaric acid, Zwitterion, L-Aspartinium chloride, L-Glutaminium chloride, Monosod
DOI: 10.1016/j.jct.2006.08.008
ThermoML: http://trc.nist.gov/ThermoML/jct/j.jct.2006.08.008.xml
sodium hydroxide
Ziemer, S. P.[S P], Niederhauser, T. L., Price, J. L., Woolley, E. M.
Thermodynamics of proton dissociations from aqueous alanine at temperatures from (278.15 to 393.15) K, molalities from (0.0075 to 1.0) mol*kg-1, and at the pressure 0.35 MPa: Apparent molar heat capacities and apparent molar volumes of alanine, alaninium chloride, and sodium alaninate
J. Chem. Thermodyn.Year: 2006Volume: 38Pages: 939-951.
Keywords: Apparent molar volume, Apparent molar heat capacity, Alanine, 2-Aminopropanoic acid, Zwitterion, Alaninium chloride, Sodium alaninate, Proton dissociations, Acidity, Young's Rule
ThermoML: http://trc.nist.gov/journals/jct/2006v38/i08/2006zienie3.xml
sodium hydroxide
Liu, B. H.[Bin Hong], Li, Z. P.[Zhou Peng], Suda, S.
Thermal properties of alkaline sodium borohydride solutions
Thermochim. ActaYear: 2008Volume: 471Pages: 103-105.
Keywords: Sodium borohydride, Hydrogen source, Liquidus temperature, Solubility, Heat capacity
DOI: 10.1016/j.tca.2008.03.009
ThermoML: http://trc.nist.gov/ThermoML/tca/j.tca.2008.03.009.xml
sodium hydroxide
Hnedkovsky, L.[Lubomir], Koenigsberger, E.[Erich], Koenigsberger, L.[LanChi], Cibulka, I.[Ivan], Schroedle, S., May, P. M.[Peter M.], Hefter, G.[Glenn]
Densities of Concentrated Alkaline Aluminate Solutions at Temperatures from (323 to 573) K and 10 MPa Pressure
J. Chem. Eng. DataYear: 2010Volume: 55Pages: 1173-1178.
DOI: 10.1021/je900584k
ThermoML: http://trc.nist.gov/ThermoML/10.1021/je900584k.xml
sodium hydroxide
L. Hnedkovsky, E. Konigsberger, I. Cibulka, L.-C. Konigsberger, S. Schrodle, P. M. May and G. Hefter
Densities of NaOH(aq) at Temperatures from (323 to 573) K and 10 MPa Pressure
J. Chem. Eng. DataYear: 2007Volume: 52Pages: 2237-2244.
DOI: 10.1021/je700265d
ThermoML: http://trc.nist.gov/journals/jced/2007v52/i06/je700265d.xml
sodium hydroxide
McCleskey, R. B.
Prev. Article Next Article Table of Contents ArticleElectrical Conductivity of Electrolytes Found In Natural Waters from (5 to 90) deg C
J. Chem. Eng. DataYear: 2011Volume: 56Pages: 317-327.
DOI: 10.1021/je101012n
ThermoML: http://trc.nist.gov/ThermoML/10.1021/je101012n.xml
sodium hydroxide
Tome, L. I. N.[Luciana I.N.], Jesus, A. J. L., Castro, R. A. E. D., Teixeira, M. H. S. F., Canotilho, J.[Joao], Eusebio, M. E. S.
Solvation enthalpy and the thermodynamics of hydration of trans-cyclohexyl-1,4-diamine and cis-cyclohexyl-1,2-diamine
J. Chem. Thermodyn.Year: 2007Volume: 39Pages: 1357-1362.
Keywords: trans-Cyclohexyl-1,4-diamine, cis-Cyclohexyl-1,2-diamine, Solution enthalpy, Solute solvent interactions, Hydration thermodynamics
DOI: 10.1016/j.jct.2007.07.006
ThermoML: http://trc.nist.gov/ThermoML/jct/j.jct.2007.07.006.xml
sodium hydroxide
J. T. Hughes and A. Navrotsky
Enthalpy of formation of zinc acetate dihydrate
J. Chem. Thermodyn.Year: 2011Volume: 43Pages: 980-982.
Keywords: Zinc acetate, Enthalpy of formation, Solution calorimetry
DOI: 10.1016/j.jct.2011.02.004
ThermoML: http://trc.nist.gov/ThermoML/10.1016/j.jct.2011.02.004.xml
sodium hydroxide
Ziemer, S. P., Woolley, E. M.
Thermodynamics of proton dissociations from aqueous L-methionine at temperatures from (278.15 to 393.15) K, molalities from (0.0125 to 1.0) mol Ae kg 1, and at the pressure 0.35 MPa: Apparent molar heat capacities and apparent molar volumes of L-methionine, methioninium chloride, and sodium methioninate
J. Chem. Thermodyn.Year: 2007Volume: 39Pages: 493-506.
Keywords: Apparent molar volume, Apparent molar heat capacity, L-Methionine, 2-Amino-4-(methylthio)butanoic acid, 2-Amino-4-(methylmercapto) butyric acid, Zwitterion, Methioninium chloride, Sodium methioninate, Proton dissociations, Acidity, Young s Rule
DOI: 10.1016/j.jct.2006.07.018
ThermoML: http://trc.nist.gov/ThermoML/jct/j.jct.2006.07.018.xml
sodium hydroxide
D. Salavera, S. K. Chaudhari, X. Esteve and A. Coronas
Vapor-Liquid Equilibria of Ammonia + Water + Potassium Hydroxide and Ammonia + Water + Sodium Hydroxide Solutions at Temperatures from (293.15 to 353.15) K
J. Chem. Eng. DataYear: 2005Volume: 50Pages: 471-476.
Keywords: Vapor-Liquid Equilibria, Ammonia, Water, Potassium Hydroxide, Sodium Hydroxide
DOI: 10.1021/je049708+
ThermoML: http://trc.nist.gov/journals/jced/2005v50/i02/je049708+.xml
sodium hydroxide
X.-H. Chen, Z.-X. Zeng and W.-L. Xue
Solubility of 2,6-Diaminopyridine in Toluene, o-Xylene, Ethylbenzene, Methanol, Ethanol, 2-Propanol, and Sodium Hydroxide Solutions
J. Chem. Eng. DataYear: 2007Volume: 52Pages: 1911-1915.
DOI: 10.1021/je700221w
ThermoML: http://trc.nist.gov/journals/jced/2007v52/i05/je700221w.xml
sodium hydroxide
N. Nunes, F. Martins and R. E. Leitao
Thermochemistry of 1-bromoadamantane in binary mixtures of water aprotic solvent
Thermochim. ActaYear: 2006Volume: 441Pages: 27-29.
Keywords: 1-Bromoadamantane, Mixtures, Water, Solution enthalpy
DOI: 10.1016/j.tca.2005.11.035
ThermoML: http://trc.nist.gov/ThermoML/tca/j.tca.2005.11.035.xml
sodium hydroxide
A. V. Churikov, A. V. Ivanishchev, I. M. Gamayunova and A. Ushakov
Density Calculations for (Na, K)BH4 + (Na, K)BO2 + (Na, K)OH + H2O Solutions Used in Hydrogen Power Engineering
J. Chem. Eng. DataYear: 2011Volume: 56Pages: 3984-3993.
Keywords: density calculation, water solutions, borohydride, borate, hydroxide, hydrogen, energetic, fuel cell
DOI: 10.1021/je200216n
ThermoML: http://trc.nist.gov/ThermoML/10.1021/je200216n.xml
sodium hydroxide
A. C. F. Ribeiro, A. C. G. Santos, V. M. M. Lobo, A. J. F. N. Sobral, A. M. T. D. P. V. Cabral and M. A. Esteso
Ternary mutual diffusion of isoniazid in aqueous sodium chloride, sodium hydroxide, and hydrochloric acid at T = 298.15 K
J. Chem. Thermodyn.Year: 2010Volume: 42Pages: 886-890.
Keywords: Diffusion coefficient, Isoniazid solutions, Taylor dispersion, Transport properties
DOI: 10.1016/j.jct.2010.02.014
ThermoML: http://trc.nist.gov/ThermoML/10.1016/j.jct.2010.02.014.xml


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