摘要
This work reports on a simple microfluidic strategy to controllably fabricate uniform polymeric microparticles containing hierarchical porous structures integrated with highly accessible catalytic metal organic frameworks for efficient degradation of organic contaminants.Monodisperse(W1/O)/W2 emulsion droplets generated from microfluidics are used as templates for the microparticle synthesis.The emulsion droplets contain tiny water microdroplets from homogenization and water nanodroplets from diffusion-induced swollen micelles as the dual pore-forming templates,and Fe-based metal-organic framework nanorods as the nanocatalysts.The obtained microparticles possess interconnected hierarchical porous structures decorated with highly accessible Fe-based metal-organic framework nanorods for enhanced degradation of organic contaminants via a heterogeneous Fenton-like reaction.Such a degradation performance is highlighted by using these microparticles for efficient degradation of rhodamine B in hydrogen peroxide solution.This work provides a simple and general strategy to flexibly combine hierarchical porous structures and catalytic metal-organic frameworks to engineer advanced microparticles for water decontamination.
基金
the National Natural Science Foundation of China(Grant Nos.21922809,22108186,and 21991101)
the Sichuan Science and Technology Program(Grant No.2019YJ0528).
