Abstract
Efficient detection of toxic heavy metal anions Cr2O72− residue in water media is of great significance due to its severe damage to ecosystem and human health. Herein, a new 2D (two-dimensional) luminescent metal–organic frameworks (MOFs) {[Zn2(bmida)(phen)]·H2O}n (abbr. Zn-MOF) (1,10-phen = 1,10-phenanthroline, H4bmida = N-(phosphonomethyl)iminodiacetic acid) with rich oxygen functional sites was constructed and structurally characterized. Notably, this Zn-MOF as an efficient luminescent sensor can detect Cr2O72− both in water media and HEPES biological buffer solution with high selectivity and sensitivity, and good cyclic stability. The corresponding detection limit (LOD) of Zn-MOF towards Cr2O72− is as low as 1.21 and 5.46 μM with large quenching constant (Ksv), respectively. The LOD in H2O solution is lower than the benchmark of drinking water recommended by United States Environmental Protection Agency (USEPA, 1.92 μM). Moreover, a possible weak interaction mechanism induced by competitive energy absorption is suggested by multiple experiments.