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Pure Appl. Chem., 1992, Vol. 64, No. 1, pp. 73-78

Thermodynamic properties of lithium n-alkanoates

Paolo Ferloni and E. F. Westrum, Jr.

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  • Nelson Peter N., Ellis Henry A., Taylor Richard A.: Effects of molecular and lattice structure on the thermal behaviours of some long chain length potassium(I) n-alkanoates. Journal of Molecular Structure 2014, 1058, 234. <>
  • Nelson Peter N., Taylor Richard A., Ellis Henry A.: The effects of molecular and lattice structures on thermotropic phase behaviour of zinc(II) undecanoate and isomeric zinc(II) undecynoates. Journal of Molecular Structure 2013, 1034, 75. <>
  • Bui Huong Ly, de Klerk Arno: Lithium C1–C12n-Alkanoates: Thermal Behavior from −30 °C to 600 °C. J. Chem. Eng. Data 2013, 58, 1039. <>
  • Ellis Henry A., Nelson Peter N., Maragh Paul T., White Nicole A.S.: Thermal and odd–even behaviour in a homologous series of lithium n-alkanoates. K J CHEM THERMODYN 2011, 43, 584. <>
  • Mirnaya T.A., Tokmenko I.I., Yaremchuk G.G., Corkery R.W.: Phase diagrams and optical properties of binary liquid crystalline systems of cobalt (II) caprylate with lithium and lead caplylates. J Non-Crystal Solids 2011, 357, 3053. <>
  • Martínez Casado F. J., Ramos Riesco M., Redondo M. I., Choquesillo-Lazarte D., López-Andrés S., Cheda J. A. Rodríguez: Anhydrous Lithium Acetate Polymorphs and Its Hydrates: Three-Dimensional Coordination Polymers. Cryst Growth Des 2011, 11, 1021. <>
  • White Nicole A. S., Ellis Henry A.: Thermal Behavior of Even Chain Length Lithium n-Alkanoates. Mol Cryst Liq Cryst 2009, 501, 28. <>
  • Martínez Casado F. J., Ramos Riesco M., Cheda J. A. R.: Rubidium and lithium butanoates binary phase diagram. J Therm Anal Calorim 2007, 87, 73. <>