Prediction of retention times in temperature programmed gas chromatography using the retention equation derived from crystallization behavior of polymer.

Based on the enlightenment from the crystallization behavior of polymer, a novel retention equation constructed with only three pairs of isothermal retention data was proposed to predict retention times in temperature programmed gas chromatography (TPGC). The new retention equation worked beautifully in both the single- and the multiple-ramp temperature-programmed modes, yielding the average absolute relative errors of 0.65% for single-ramp TPGC across all the 18 analytes in 3 temperature programmed experiments and 0.30% for multiple-ramp TPGC across all the 8 analytes in 6 temperature programmed experiments tested in this work. Moreover, to compare with the new retention equation systematically and thoroughly, another 13 retention equations determined by two or three parameters were derived from a universal formula lnk=a₀+a₁/T+a₂/T²+a₃ lnT+a₄T+a₅T² as a combination of the relationships between lnk and T with reference to four widely used retention equations in publications. Calculated by these 14 retention equations with the same experimental data, the absolute relative errors of prediction retention times for single-ramp TPGC mode were compared by means of statistical analysis. At a very high significance level of 1%, statistical evidences of paired t-test strictly implied that the new retention equation yielded the best prediction results among all of the 14 retention equations. In addition, remarkably, among the 13 retention equations, three seldom used in publications retention equations also worked nicely, yielding satisfactory average absolute relative errors of 0.78%, 0.81% and 0.84% for single-ramp TPGC. Copyright © 2013 Elsevier B.V. All rights reserved.

Citation

Xiaowei Li, Guoliang Fan, Cairong Gong, Min Ao, Hua Li. Prediction of retention times in temperature programmed gas chromatography using the retention equation derived from crystallization behavior of polymer. Journal of chromatography. A. 2013 Feb 15;1277:76-83

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PMID: 23332784

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