Predicting the total entropy of melting: Application to pharmaceuticals and environmentally relevant compounds

Rose Marie Dannenfelser; Samuel H. Yalkowsky

doi:10.1021/js9803609

Predicting the total entropy of melting: Application to pharmaceuticals and environmentally relevant compounds

Rose Marie Dannenfelser, Samuel H. Yalkowsky

Pharmacology and Toxicology

Research output: Contribution to journal › Article › peer-review

49 Scopus citations

Abstract

Experimental entropy of melting values for physical property estimation schemes, such as solubility and vapor pressure, are not readily available. In this study a semiempirical equation, which contains two molecular parameters, is used to estimate the total entropy of melting for a variety of pharmaceutically and environmentally relevant compounds. A database of experimental entropy values consisting of over 370 different compounds was compiled from literature. A molecular rotational symmetry number and a molecular flexibility number for each compound were defined. The simple equation does very well in predicting the total entropy of melting for the complex set of molecules with an average error of 21%.

Original language	English (US)
Pages (from-to)	722-724
Number of pages	3
Journal	Journal of pharmaceutical sciences
Volume	88
Issue number	7
DOIs	https://doi.org/10.1021/js9803609
State	Published - Jul 1999

ASJC Scopus subject areas

Pharmaceutical Science

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10.1021/js9803609

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title = "Predicting the total entropy of melting: Application to pharmaceuticals and environmentally relevant compounds",

abstract = "Experimental entropy of melting values for physical property estimation schemes, such as solubility and vapor pressure, are not readily available. In this study a semiempirical equation, which contains two molecular parameters, is used to estimate the total entropy of melting for a variety of pharmaceutically and environmentally relevant compounds. A database of experimental entropy values consisting of over 370 different compounds was compiled from literature. A molecular rotational symmetry number and a molecular flexibility number for each compound were defined. The simple equation does very well in predicting the total entropy of melting for the complex set of molecules with an average error of 21%.",

author = "Dannenfelser, {Rose Marie} and Yalkowsky, {Samuel H.}",

note = "Funding Information: This work was supported by a grant from the Environmental Protection Agency (R-817475).",

year = "1999",

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N2 - Experimental entropy of melting values for physical property estimation schemes, such as solubility and vapor pressure, are not readily available. In this study a semiempirical equation, which contains two molecular parameters, is used to estimate the total entropy of melting for a variety of pharmaceutically and environmentally relevant compounds. A database of experimental entropy values consisting of over 370 different compounds was compiled from literature. A molecular rotational symmetry number and a molecular flexibility number for each compound were defined. The simple equation does very well in predicting the total entropy of melting for the complex set of molecules with an average error of 21%.

AB - Experimental entropy of melting values for physical property estimation schemes, such as solubility and vapor pressure, are not readily available. In this study a semiempirical equation, which contains two molecular parameters, is used to estimate the total entropy of melting for a variety of pharmaceutically and environmentally relevant compounds. A database of experimental entropy values consisting of over 370 different compounds was compiled from literature. A molecular rotational symmetry number and a molecular flexibility number for each compound were defined. The simple equation does very well in predicting the total entropy of melting for the complex set of molecules with an average error of 21%.

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Predicting the total entropy of melting: Application to pharmaceuticals and environmentally relevant compounds

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