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Pure Appl. Chem., 1991, Vol. 63, No. 11, pp. 1667-1676


The use of quantitative structure-activity relationships for predicting rates of environmental hydrolysis processes

W. J. G. M. Peijnenburg

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  • Alipour Mojtaba, Mohajeri Afshan: From density functional steric analysis and molecular electrostatic potential to the estimation of etherification rate constant. J. Phys. Org. Chem. 2012, 25, 797. <>
  • Andraos John: Inclusion of Environmental Impact Parameters in Radial Pentagon Material Efficiency Metrics Analysis: Using Benign Indices as a Step Towards a Complete Assessment of “Greenness” for Chemical Reactions and Synthesis Plans. Org. Process Res. Dev. 2012, 16, 1482. <>
  • Schüürmann Gerrit: Modellierung der Lebensdauer und Abbaubarkeit organischer Verbindungen in Luft, Boden und Wasser. Angew Chem 2005, 117, 834. <>
  • Gamberger Dragan, Horvatić Davor, Sekušak Sanja, Sabljić Aleksandar: Applications of experts’ judgement to derive structure-biodegradation relationships. Env Sci Poll Res Int 1996, 3, 224. <>
  • de Beer Karin G.M., den Hollander Henri A., Stegeman Miranda H.L., Peijnenburg Willie J.G.M., Verboom Hans: Kinetics, products, mechanisms and QSARs for the hydrolytic transformation of aromatic nitriles in anaerobic sediment slurries. Environ Toxicol Chem 1993, 12, 1149. <>
  • Peijnenburg Willie J.G.M., de Beer Karin G.M., den Hollander Henri A., Stegeman Miranda H.L., Verboom Hans: The development of quantitative structure activity relationships for the direct photolysis of substituted haloaromatics in aqueous environments. Sei Total Environ 1993, 134, 1397. <>