A novel chromophore reaction-based pyrrolopyrrole aza-BODIPY fluorescent probe for H2S detection and its application in food spoilage.

A novel chromophore reaction-based pyrrolopyrrole aza -BODIPY fluorescent probe for H 2 S detection was developed. [Display omitted] • A novel chromophore reaction-based sensing mechanism for H 2 S detection is developed. • The colorimetric and ratiometric fluorescence "turn on" signals are shown. • A new fluorescence approach for monitoring H 2 S in eggs is demonstrated. • An AIEE-active sensing material for H 2 S detection is developed. In this work, we developed an aggregation-induced emission enhancement (AIEE) active and NIR emissive pyrrolopyrrole aza -BODIPY (PPAB) polymer (P1) for H 2 S detection for the first time. P1 showed obvious colorimetric change from green to yellow-green and ratiometric fluorescence "turn on" phenomenon with 167 nm blue-shift (from dark red to bright green). The sensing mechanism revealed a novel chromophore reaction between imine in PPAB core and H 2 S was involved, leading to less conjugated product. It exhibited distinct advantages of good selectivity, high sensitivity, and low detection limit of 0.66 μM. The potential applicability of P1 for H 2 S detection in the real samples (tap water, lake water and milk) was demonstrated. In addition, the solid sensor prepared by loading P1 on the PMMA film was successfully realized the visual detection of gaseous H 2 S gas produced from egg spoilage. Therefore, this work provides a promising approach based on novel sensing mechanism for monitoring H 2 S in complicated biological systems and practical food samples. [ABSTRACT FROM AUTHOR]