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Both‐In‐One Rapid Detection and Removal of Methylmercury in Real Complex Aquatic Environments Using a Janus Confined SERS Filter Membrane

Xiao Fei Guo, Xin Cai, Fengcai Lei, Yang Jiao, Xiaofei Zhao, Zhen Li, Chao Zhang, Baoyuan Man, Jing Yu

2024Advanced Functional Materials23 citationsDOIOpen Access PDF

Abstract

Abstract A surface‐enhanced Raman scattering (SERS) filter membrane based on a Janus copper/poly(vinylidene fluoride)/zinc oxide/silver/zeolitic imidazolate framework‐8 (Cu/PVDF/ZnO/Ag/ZIF‐8, J‐CPZAZ) is designed in this work, which can extract and enrich methylmercury (MeHg) from real samples containing various sizes and types of interferents into the PVDF/ZnO/Ag/ZIF‐8 SERS enhancement unit directly within 2 min. Combined with the microcavity structure in PVDF/ZnO/Ag/ZIF‐8, J‐CPZAZ can also localize the incident light at the same position. This co‐confinement effect of “hotspot‐molecule” effectively lowers the limit of detection of MeHg to 10 −10 m . Interestingly, a controllable wettability of J‐CPZAZ endows it with good oil‐water separation function for separating various kinds of MeHg extractant (>95%) from mixed aqueous solution. Based on these features, a dual‐layer J‐CPZAZ filter membrane is further successfully fabricated, enabling both‐in‐one detection and removal of MeHg from real water environments. In the experiments, real water samples are selected from six different water areas in Shandong Province, China, for relevant tests and compared the results with those obtained using traditional gas chromatography. The results demonstrate that the dual‐layer J‐CPZAZ filter membrane exhibits both high MeHg removal efficiency (≈100%) and detection accuracy (average error < 1.8%), showcasing great application potential.

Topics & Concepts

Materials scienceJanusMethylmercuryMembraneNanotechnologyFilter (signal processing)Membrane filterMetallurgyComputer scienceChemistryComputer visionSeleniumBiochemistryMercury impact and mitigation studiesGold and Silver Nanoparticles Synthesis and ApplicationsAdvanced Nanomaterials in Catalysis