Self‐assembly of covalent porphyrin compound and its enhanced electrochemiluminescence performance

A novel Zn‐coordination covalent porphyrin assembly (TCPP‐BZA‐Zn) is designed. The assembly structure is synthesized through the amidation reaction between the porphyrin terminal carboxyl group and the amino group of benzylamine (BZA), and further assembled through π–π stacking. In particular, the inherently ordered structure of TCPP‐BZA‐Zn with Zn as the catalytic active center endows the porphyrin assembly structure with several obvious advantages, such as high ion transport properties and high electrocatalytic performance. In the presence of hydrogen peroxide as a co‐reaction reagent, TCPP‐BZA‐Zn/GCE showed excellent ECL behavior. The amplification phenomenon of ECL was further studied by cyclic voltammetry and the corresponding mechanism was proposed. Based on TCPP‐BZA‐Zn, an electrochemiluminescence sensor was constructed for copper ion detection. The ECL intensity of the sensor shows a good linear relationship with the concentration of copper ion in the range of 10 nM–1 mM, and the detection limit is 1.3 nM.