Abstract
This study investigates the synthesis and characterization new peripherally (β) tetra-substituted 4-(2-mercaptoquinoline phthalocyaninato) Co(II) (CoPcSHQn, 3), and 4-(2-phenoxy-4-trifluoromethylpyridine phthalocyaninato) Co(II) (CoPcOHPy, 4). These complexes were characterized by elemental analysis, IR, mass and electronic spectroscopies and electrochemical methods. Both complexes show well resolved redox peaks attributed to both ring and metal based processes. Spectroelectrochemistry was used to confirm the assignments of the redox processes. For CoPcSHQn (3): CoIPc−2/CoIPc−3 (E1/2=−1.25V, I), CoIIPc−2/CoIPc−2 (E1/2=−0.57V, II), CoIIIPc−2/CoIIPc−2 (E1/2=+0.45V, IV) and an irreversible process at Ep=+1.05V vs Ag|AgCl for CoIIIPc−1/CoIIIPc−2 (V). Redox couple III at E1/2=−0.15V was ascribed to aggregation. In the case of CoPcOHPy (4): CoIPc−2/CoIPc−3 (E1/2=−1.13V, I), CoIIPc−2/CoIPc−2 (E1/2=−0.45V, II), CoIIIPc−2/CoIIPc−2 at E1/2=+0.21V (IV), and CoIIIPc−1/CoIIIPc−2 (E1/2=+1.01V vs Ag|AgCl, V). Again III is associated with the aggregated species. Both complexes were electrodeposited on a glassy carbon electrode (GCE). For complex 3 self-assembled monolayers was also formed. The modified (CoPc-GCE) electrodes electrocatalytically detected l-cysteine at Ep=0.62V (3-GCE) and 0.59V (4-GCE) vs Ag|AgCl.
Published Version
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