Fluorescent phosphine oxide-containing hyperbranched polyesters: design, synthesis and their application for Fe3+ detection

Abstract

Herein, fluorescent phosphine oxide-containing hyperbranched polyesters (HBPs) were synthesized via the solvent-free polycondensation of 3-((4-((bis(hydroxymethyl)phosphoryl)methyl)phenethyl)thio) propanoic acid (BHPA) or its methyl ester derivative (MBHP) by adding trimethylolpropane as the core for the first time. As a clusteroluminogen (CLgen), the hyperbranched polyesters (HBPn, n = 1–4) carrying no conventional chromophores exhibited bright blue fluorescence under the irradiation of 365 nm ultraviolet light. This photoluminescence was attributed to the clustering of electron-rich moieties (i.e., CO, PO and OH). HBP2 in dimethylformamide showed clear concentration-enhanced emission (CEE) as well as excitation-dependent emission (EDE) characteristics. In addition, HBP2 was proved to be a selective and sensitive sensor for Fe³⁺ detection due to its good linearly fluorescence quenching response with a low detection limit (0.59 μM).