Flow injection amperometric determination of thiocyanate and selenocyanate at a cobalt phthalocyanine modified carbon paste electrode

Abstract

Inorganic anions containing sulfur (SO₃ ^2–, S₂O₃ ^2–, and SCN^–), selenium (SeO₃ ^2– and SeCN^–), nitrogen (NO₂ ^–), and arsenic (AsO₂ ^–) oxidize readily at a carbon paste electrode (CPE) modified with cobalt phthalocyanine (CoPC–CPE). All of these anions are virtually non-electroactive (with the exception of SeCN^–) towards the CPE. The CoPC–CPE was used as an amperometric flow sensor for the direct determination of SCN^– and SeCN^–. The application of a potential alternating between an anodic detection potential and a cathodic reactivation potential provided a more stable detector response for both anions. Potentials alternating in the ranges +0.85 to –0.30 V and +0.60 to –0.30 V were used for SCN^– and SeCN^–, respectively. The linear response ranges and the detection limits were 2–50 µmol l^–1 and 0.8 µmol l^–1(at pH 2.0), respectively, for SCN^–, and 0.2–20 µmol l^–1 and 0.1 µmol l^–1(at pH 7.0), respectively, for SeCN^–. Thiocyanate can be readily determined in saliva samples following 100-fold dilution with the supporting electrolyte solution. The results are comparable to those obtained using a standard spectrophotometric method.