A fast and sensitive ion chromatographic method for the simultaneous determinations of six inorganic anions [iodate (IO
3−), bromate (BrO
3−), bromide (Br
−), nitrite (NO
2−), nitrate (NO
3−), and iodide (I
−)] in seawater is described using dodecylammonium (DA
+)-coated monolithic octadecylsilyl (ODS) columns, a concentrated aqueous NaCl mobile phase containing dodecylammonium chloride (DAC), and a UV detector. The DA
+-coated monolithic ODS columns show greater retention for iodate and weaker retention for iodide, compared to dilauryldimethylammonium (DDA
+)-coated monolithic ODS columns. Six anions were determined within 12 min with baseline separation without interferences by matrix ions, such as Cl
− and SO
42−, in seawater, compared to a DA
+-coated particulate ODS column (it took 25 min per sample) obtained previously. The detection limits (DLs) were comparable to the DA
+-coated particulate ODS column: IO
3− (7.7 μg L
−1), BrO
3− (20), Br
− (88), NO
2− (0.9), NO
3− (1.9), and I
− (0.9) with a 100-μL sample injection. A larger sample volume injection lowered the DLs of IO
3−, BrO
3−, and I
−. The good performance was maintained for
ca. 2 years examined. The robust IC system developed in the present work was successfully applied to real seawater samples without sample dilution in the recovery rates of 93 – 104% for all ions.
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