(2007) „Correlation and Prediction of Activity and Osmotic Coefficients of Aqueous Electrolytes at 298.15 K by the Modified TCPC Model”. Journal of Chemical & Engineering Data52 (2), 538–547. o. DOI:10.1021/je060451k. ISSN0021-9568.
(2008) „Correlation and Prediction of Thermodynamic Properties of Nonaqueous Electrolytes by the Modified TCPC Model”. Journal of Chemical & Engineering Data53 (1), 149–159. o. DOI:10.1021/je700446q. ISSN0021-9568.
(2008) „Correlation and Prediction of Thermodynamic Properties of Some Complex Aqueous Electrolytes by the Modified Three-Characteristic-Parameter Correlation Model”. Journal of Chemical & Engineering Data53 (4), 950–958. o. DOI:10.1021/je7006499. ISSN0021-9568.
(2009) „A Simple Two-Parameter Correlation Model for Aqueous Electrolyte Solutions across a Wide Range of Temperatures”. Journal of Chemical & Engineering Data54 (2), 179–186. o. DOI:10.1021/je800483q. ISSN0021-9568.
(1963) „The solubility of carbon dioxide above 100 degrees C in water and in sodium chloride solutions”. American Journal of Science261 (1), 47–60. o. DOI:10.2475/ajs.261.1.47. ISSN0002-9599.
(1948) „Ionic Hydration and Activity in Electrolyte Solutions”. Journal of the American Chemical Society70 (5), 1870–1878. o. DOI:10.1021/ja01185a065. PMID18861802.
(1955) „The influence of ionic hydration on activity coefficients in concentrated electrolyte solutions”. Transactions of the Faraday Society51, 1235. o. DOI:10.1039/TF9555101235.
(1957) „The influence of ionic hydration on activity coefficients in concentrated electrolyte solutions”. Transactions of the Faraday Society53, 305. o. DOI:10.1039/TF9575300305.
(1960) „The Structure of Electrolytic Solutions, herausgeg. von W. J. Hamer. John Wiley & Sons, Inc., New York; Chapman & Hall, Ltd., London 1959. 1. Aufl., XII, 441 S., geb. $ 18.50”. Angewandte Chemie72 (24), 97. o. DOI:10.1002/ange.19600722427. ISSN0044-8249.
(1956) „On the Stokes-Robinson Hydration Model for Solutions”. The Journal of Physical Chemistry60 (9), 1296–1299. o. DOI:10.1021/j150543a034.
(1982) „The stokes and robinson hydration theory: A modification with application to concentrated electrolyte solutions”. Journal of Solution Chemistry11 (6), 415–422. o. DOI:10.1007/BF00649040.
(1948) „Ionic Hydration and Activity in Electrolyte Solutions”. Journal of the American Chemical Society70 (5), 1870–1878. o. DOI:10.1021/ja01185a065. PMID18861802.
(2007) „Correlation and Prediction of Activity and Osmotic Coefficients of Aqueous Electrolytes at 298.15 K by the Modified TCPC Model”. Journal of Chemical & Engineering Data52 (2), 538–547. o. DOI:10.1021/je060451k. ISSN0021-9568.
(2008) „Correlation and Prediction of Thermodynamic Properties of Nonaqueous Electrolytes by the Modified TCPC Model”. Journal of Chemical & Engineering Data53 (1), 149–159. o. DOI:10.1021/je700446q. ISSN0021-9568.
(2008) „Correlation and Prediction of Thermodynamic Properties of Some Complex Aqueous Electrolytes by the Modified Three-Characteristic-Parameter Correlation Model”. Journal of Chemical & Engineering Data53 (4), 950–958. o. DOI:10.1021/je7006499. ISSN0021-9568.
(2009) „A Simple Two-Parameter Correlation Model for Aqueous Electrolyte Solutions across a Wide Range of Temperatures”. Journal of Chemical & Engineering Data54 (2), 179–186. o. DOI:10.1021/je800483q. ISSN0021-9568.
(1963) „The solubility of carbon dioxide above 100 degrees C in water and in sodium chloride solutions”. American Journal of Science261 (1), 47–60. o. DOI:10.2475/ajs.261.1.47. ISSN0002-9599.
(1960) „The Structure of Electrolytic Solutions, herausgeg. von W. J. Hamer. John Wiley & Sons, Inc., New York; Chapman & Hall, Ltd., London 1959. 1. Aufl., XII, 441 S., geb. $ 18.50”. Angewandte Chemie72 (24), 97. o. DOI:10.1002/ange.19600722427. ISSN0044-8249.
