A magnetically recyclable Fe3O4@C@TNCuPc composite catalyst for chromogenic identification of phenolic pollutants

“…This consequently leads to radical formation that participates in oxidative coupling to form the dyes. Further progress was made in chromogenic identification of phenols when magnetic Fe3O4/Carbon/CuPc composites as catalysts were fabricated [103]. The catalyst was used in conjunction with aminoantipyrine (4-AAP, chromogenic agent) and BuOOH for the oxidation of phenolic compounds without additional heating or light irradiation.…”

Recent advances in phthalocyanines for chemical sensor, non-linear optics (NLO) and energy storage applications

“…This consequently leads to radical formation that participates in oxidative coupling to form the dyes. Further progress was made in chromogenic identification of phenols when magnetic Fe3O4/Carbon/CuPc composites as catalysts were fabricated [103]. The catalyst was used in conjunction with aminoantipyrine (4-AAP, chromogenic agent) and BuOOH for the oxidation of phenolic compounds without additional heating or light irradiation.…”

Recent advances in phthalocyanines for chemical sensor, non-linear optics (NLO) and energy storage applications

“…Many synthetic methods for obtaining various types of laccase-like nanomaterials have been described, when most of them are based on the use of copper ions as a catalyst, because the active centers of natural laccases also contain these ions. A large number of copper-based complexes with different types of organic ligands are reported as laccase mimetics [249][250][251][252][253]. Ren and other authors [254][255][256][257] reported one-pot synthesis of copper-containing carbon dots as laccase mimics.…”

Synthesis, Catalytic Properties and Application in Biosensorics of Nanozymes and Electronanocatalysts: A Review

A novel dual-ligand copper-based nanoflower for the colorimetric and fluorescence detection of 2,4-dichlorophenol, epinephrine and hydrogen peroxide