Ionization effects on the partitioning behavior of food and beverage aroma compounds between aqueous phases and air and organic matrices

摘要

Aroma compounds in the Flavornet database were screened for ionizable functional groups such as carboxylic acids, aliphatic and aromatic amines, phenols, alcohols, and thiols. Of the 738 aroma compounds listed in this database, 101 molecules have ionizable moieties with estimated monomeric aqueous pK~a~ values ranging between 1.75 and 10.97. pH dependent effective air/water partitioning coefficients (K~aw,eff~) and n-octanol/water partitioning coefficients (D~ow~) were estimated for all ionizable aroma compounds over the pH range from 0 to 14. The ionizable aroma compounds display a broad range of K~aw,eff~ (1.8×10^-23^ to 6.1 atm M^-1^) and log D~ow~ (-6.2 to +7.2 units) values. For many aroma compounds, pH dependent ionization will have a significant effect on the K~aw,eff~ and D~ow~, leading to variations in these physico-chemical properties by up to 11 orders of magnitude over the composite pH range of common foods and beverages. Changes in food and beverage pH affect not only the relative contributions of neutral versus charged forms of ionizable aroma compounds (which directly affects analyte volatility and olfactory reception), but also partitioning between freely dissolved and sorbed forms of the analyte in solution (which indirectly affects analyte volatility).