Kamlet-Taft solvent parameters

There are three Kamlet-Taft solvent parameters: α (hydrogen bond donor), β (hydrogen bond acceptor), and π^* (polarizability).
The values of α have been set to 0 for solvents that are assumed to be unable to donate hydrogen bonds. This truncation at 0 is the main reason it differs from other measures of hydrogen bond acidity such as E_T and AN.

Occasionally a "polarity correction term" (fudge factor), δ, is seen in correlations. For aromatics δ=1.0, for polychlorinated compounds δ=0.5, and for all other solvents δ=0.0 . If possible this type of ad hoc parameters should be avoided and separate correlations used for different solvent classes.

α is correlated with →Dimroth-Reichardt E_T (→E_T vs α) and →Gutmann AN (→AN vs α).
β is correlated with →Gutmann DN (→DN vs β) except for amines and sulfides.
π^* is correlated with →Catalán SPP (→SPP vs π^*).

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Name	Formula	β	π^*	🏷 Tag
pentafluoropyridine	C₅F₅N	0.16	0.53	halo heteroaromatic
pentane	C₅H₁₂	0.00	-0.08	alkane
perfluoro(methylcyclohexane)	C₇F₁₄	-0.06	-0.40	halo
piperidine	C₅H₁₁N	1.04	0.30	amine
propanenitrile	C₃H₅N	0.39	0.71	nitrile
propyl acetate	C₅H₁₀O₂	0.40	…	ester
pyridine	C₅H₅N	0.64	0.87	heteroaromatic
quinoline	C₉H₇N	0.64	0.92	aromatic heteroaromatic
styrene	C₈H₈	0.12	…	alkene aromatic
sulfolane	C₄H₈O₂S	0.39	0.98
tetrachloroethene	C₂Cl₄	0.05	0.28	halo
tetrachloromethane	CCl₄	0.10	0.28	halo
tetradecafluorohexane	C₆F₁₄	-0.08	-0.41	halo
tetrahydrofuran	C₄H₈O	0.55	0.58	ether
tetramethylsilane	C₄H₁₂Si	0.02	-0.09
thiane	C₅H₁₀S	0.36	0.61
thiolane	C₄H₈S	0.44	0.62
thiolane-1-oxide	C₄H₈OS	0.81	1.06
toluene	C₇H₈	0.11	0.54	aromatic
trans-1,2-dichloroethene	C₂H₂Cl₂	0.00	0.44	alkene halo
tributyl phosphate	C₁₂H₂₇O₄P	0.80	0.65
tributylamine	C₁₂H₂₇N	0.62	0.16	amine
trichloroethene	C₂HCl₃	0.05	0.53	halo alkene
triethyl phosphate	C₆H₁₅O₄P	0.77	0.72
triethylamine	C₆H₁₅N	0.71	0.14	amine