RETENTION BEHAVIOR OF ARSENOBETAINE, ARSENOCHOLINE, TRIMETHYLARSINE OXIDE AND TETRAMETHYLARSONIUM IODIDE ON A STYRENE-DIVINYLBENZENE COLUMN WITH BENZENESULFONATES AS ION-PAIRING REAGENTS

摘要

The pa-dependent retention behavior of arsenobetaine, arsenocholine, trimethylarsine oxide, tetramethylarsonium iodide (cationic arsenic compounds),arsenite, arsenate, methylarsonic acid, and dimethylarsinic acid (anionic arsenic compounds) was studied on a Hamilton PRP-1 reversed-phase column (250x4.1 mm LD.) with 10 mM aqueous solutions of benzensulfonic acids (X-C6H4SO3-; X=H, 4-HO, 3-CO2H; 4-HO-3-HO2C-C6H3SO3-) as ion-pairing reagents in the pH range 2-5 using flame atomic absorption spectrometry as the arsenic-specific detector. The dependencies of the k'-values of the 'cationic' arsenic compounds was rationalized on the basis of the protonation/deprotonation behavior of the arsenic compounds and of the four benzenesulfonates. The results provided evidence for the formation of a cationic species from trimethylarsine oxide below pH 3. Benzenesulfonate is the most hydrophobic ion-pairing reagent causing strong retention of the cationic arsenic compounds and consequently impeding their rapid separation. With the less hydrophobic, substituted benzenesulfonates the cationic arsenic compounds had retention times not exceeding 6 min. At a flow-rate of 1.5 cm(3) min(-1) 10 mM aqueous 3-carboxy-4-hydroxybenzenesulfonate solution adjusted to pH 3.5 allowed the separation of arsenate, methylarsonic acid, arsenobetaine, trimethylarsine oxide, the tetramethylarsonium ion, and arsenocholine within 3 min. Dimethylarsinic acid coelutes with arsenobetaine at pH 3.5, but can be separated from arsenobetaine with the same mobile phase at pH 2.5. At pH 2.5 the signals for trimethylarsine oxide, the tetramethylarsonium ion, and arsenocholine are too broad to be useful for quantification. Arsenite and methylarsonic acid cannot be separated under these conditions.