Abstract
Abstract Metal-organic framework (MOF) nanomaterials are emerging porous coordinative polymers with large surface area and high porosity. Their application scenarios highly depend on adsorption/desorption dynamics of guest molecules in the framework. For representative ZIF-8 with framework flexibility, the study of molecule transportation in the pore channels of ZIF-8 will address the ambiguity of unclear application scenarios. In this study, the integration of lab-on-fiber technology and nanotechnology are demonstrated for real-time monitoring of adsorption/desorption dynamics of heterocyclic volatile compounds (VOCs) with kinetic diameters larger than the window aperture of ZIF-8. The in-line fiber interferometer with cascaded long-period gratings is used to monitor the real-time refractive index change of VOC adsorption/desorption. The structure-effect relationship between guest VOCs and framework flexibility is analyzed. It shows that the adsorption dynamics is highly related to the molecular geometry and kinetic diameter. The framework flexibility results in the trapping of guest VOCs toluene, pyridine, and tetrahydrofuran in the frameworks. The methanol adsorption/desorption is an effective strategy for the fast desorption of trapped residual VOCs in the framework. Finally, we conceptually demonstrated the real-time monitoring of trace toluene enrichment using ZIF-8 for indoor air purification. This study paves the way for the in-depth understanding of framework flexibility for MOF’s application.
Highlights
Metal-organic frameworks (MOFs) are new emerging porous coordinative polymers with metal centers and organic linkers [1, 2]
It should be noted that for volatile compounds (VOCs) adsorption, the thicker zeolitic imidazole frameworks (ZIFs)-8 will result in a better adsorption performance, but it needs to take a longer timer for the adsorption/desorption of relatively large guest VOC molecules
We carried out nine-cycle ZIF-8 selfassembly on fiber, but it required more than 5 h for tolu ene adsorption/desorption
Summary
Metal-organic frameworks (MOFs) are new emerging porous coordinative polymers with metal centers and organic linkers [1, 2] Those materials have shown their exceptionally large surface area and high porosity [3]. Optical fiber device is nano functionalized by surface self assembly of MOF nanomaterials ZIF-8 and is used for the real-time monitoring of the adsorption/desorption dynamics of guest VOCs (toluene, cyclohexane, pyridine, and tetrahydrofuran). Based on the results of fiber-optic dynamic monitoring, we analyze the relationship between molecular structure and dynamic processes and propose that the use of toluene enrichment could be used for indoor air purification These studies can provide useful guideline for the application of metal-organic framework materials in suitable scenario
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