Different Encoding Alternatives for the Prediction of Halogenated Polymers Glass Transition Temperature by Quantitative Structure-Property Relationships

DUCHOWICZ, P. R.; BACELO, D. E.; MERCADER, A. G.

INTERNATIONAL JOURNAL OF POLYMER ANALYSIS AND CHARACTERIZATION

TAYLOR & FRANCIS LTD

Lugar: Londres; Año: 2017 vol. 22 p. 639 - 648

1023-666X

The glass transition temperature, Tg, is one of the most important properties of amorphous polymers. The ability to predict the Tg value of a polymer preceding its synthesis is of enormous value. For this reason it is of great value to perform a predictive quantitative structure-property relationships analysis of Tg, in this case a new set of halogenated polymers was used for this purpose. In addition, to corroborate our previous findings, the best way to encode the polymers structure for this type of studies was further tested finding that the optimal option is once more to use three monomeric units. The best linear model constructed from 153 molecular structures incorporated seven molecular descriptors and showed excellent predictive ability. Furthermore, the method showed to be very simple and straightforward for the prediction of Tg since three-dimensional descriptors are not required.