Solute-solvent interactions in chemistry and biology. Part 7. An analysis of mobile phase effects on high pressure liquid chromatography capacity factors and relationships of the latter with octanol-water partition coefficients

Mortimer J. Kamlet; Michael H. Abraham; Peter W. Carr; Ruth M. Doherty; Robert W. Taft

doi:10.1039/P29880002087

Solute-solvent interactions in chemistry and biology. Part 7. An analysis of mobile phase effects on high pressure liquid chromatography capacity factors and relationships of the latter with octanol-water partition coefficients

Mortimer J. Kamlet, Michael H. Abraham, Peter W. Carr, Ruth M. Doherty, Robert W. Taft

Chemistry (Twin Cities)

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85 Scopus citations

Abstract

log k† values on a C₁₈ stationary phase with 90/10, 75/25, 60/40, 45/55 and 30/70 methanol-water mobile phases are correlated in terms of the generalized linear solvation energy relationship, log k' = XYZ_o + mV₁/100 + sπ* + bβ_m + aα_m where V₁ is the intrinsic (van der Waals) molar volume, and π*, β_m, and α_m are the solvatochromic parameters that measure solute dipolarity-polarizability, hydrogen-bond acceptor basicity, and hydrogen-bond donor acidity. The correlation equations are combined with the corresponding equation for octanol-water partition coefficients to generate new equations that demonstrate the exact relationships between the various log k's and log K_ow.

Original language	English (US)
Pages (from-to)	2087-2092
Number of pages	6
Journal	Journal of the Chemical Society, Perkin Transactions 2
Issue number	12
DOIs	https://doi.org/10.1039/P29880002087
State	Published - 1988

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Kamlet, M. J., Abraham, M. H., Carr, P. W., Doherty, R. M., & Taft, R. W. (1988). Solute-solvent interactions in chemistry and biology. Part 7. An analysis of mobile phase effects on high pressure liquid chromatography capacity factors and relationships of the latter with octanol-water partition coefficients. Journal of the Chemical Society, Perkin Transactions 2, (12), 2087-2092. https://doi.org/10.1039/P29880002087

Solute-solvent interactions in chemistry and biology. Part 7. An analysis of mobile phase effects on high pressure liquid chromatography capacity factors and relationships of the latter with octanol-water partition coefficients. / Kamlet, Mortimer J.; Abraham, Michael H.; Carr, Peter W. et al.
In: Journal of the Chemical Society, Perkin Transactions 2, No. 12, 1988, p. 2087-2092.

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

Kamlet, MJ, Abraham, MH, Carr, PW, Doherty, RM & Taft, RW 1988, 'Solute-solvent interactions in chemistry and biology. Part 7. An analysis of mobile phase effects on high pressure liquid chromatography capacity factors and relationships of the latter with octanol-water partition coefficients', Journal of the Chemical Society, Perkin Transactions 2, no. 12, pp. 2087-2092. https://doi.org/10.1039/P29880002087

Kamlet MJ, Abraham MH, Carr PW, Doherty RM, Taft RW. Solute-solvent interactions in chemistry and biology. Part 7. An analysis of mobile phase effects on high pressure liquid chromatography capacity factors and relationships of the latter with octanol-water partition coefficients. Journal of the Chemical Society, Perkin Transactions 2. 1988;(12):2087-2092. doi: 10.1039/P29880002087

Kamlet, Mortimer J. ; Abraham, Michael H. ; Carr, Peter W. et al. / Solute-solvent interactions in chemistry and biology. Part 7. An analysis of mobile phase effects on high pressure liquid chromatography capacity factors and relationships of the latter with octanol-water partition coefficients. In: Journal of the Chemical Society, Perkin Transactions 2. 1988 ; No. 12. pp. 2087-2092.

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abstract = "log k† values on a C18 stationary phase with 90/10, 75/25, 60/40, 45/55 and 30/70 methanol-water mobile phases are correlated in terms of the generalized linear solvation energy relationship, log k' = XYZo + mV1/100 + sπ* + bβm + aαm where V1 is the intrinsic (van der Waals) molar volume, and π*, βm, and αm are the solvatochromic parameters that measure solute dipolarity-polarizability, hydrogen-bond acceptor basicity, and hydrogen-bond donor acidity. The correlation equations are combined with the corresponding equation for octanol-water partition coefficients to generate new equations that demonstrate the exact relationships between the various log k's and log Kow.",

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Solute-solvent interactions in chemistry and biology. Part 7. An analysis of mobile phase effects on high pressure liquid chromatography capacity factors and relationships of the latter with octanol-water partition coefficients

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