6533b7cffe1ef96bd125904d
RESEARCH PRODUCT
Iron-based metal-organic framework: Synthesis, structure and current technologies for water reclamation with deep insight into framework integrity.
Sidra IftekharEhsan Nazarzadeh ZareJessy JosephZari FallahVarsha SrivastavaMika Sillanpääsubject
Environmental EngineeringsynthesisHealth Toxicology and MutagenesisIron0208 environmental biotechnologyGroundwater remediationrauta02 engineering and technology010501 environmental sciencesHeterogeneous catalysis01 natural sciencesCommercializationrakenne (ominaisuudet)Water PurificationEnvironmental Chemistrystructurepolymeeritiron-based metal-organic frameworkEcosystemMetal-Organic Frameworks0105 earth and related environmental sciencesPollutantkemiallinen synteesifenton degradationvedenpuhdistusPublic Health Environmental and Occupational HealthWaterGeneral MedicineGeneral Chemistrywater treatmentkompleksiyhdisteetPollution6. Clean water020801 environmental engineering13. Climate actionadsorptionPhotocatalysisEnvironmental scienceMetal-organic frameworkWater treatmentWater qualityBiochemical engineeringadsorptiodescription
Water is a supreme requirement for the existence of life, the contamination from the point and non-point sources are creating a great threat to the water ecosystem. Advance tools and techniques are required to restore the water quality and metal-organic framework (MOFs) with a tunable porous structure, striking physical and chemical properties are an excellent candidate for it. Fe-based MOFs, which developed rapidly in recent years, are foreseen as most promising to overcome the disadvantages of traditional water depolluting practices. Fe-MOFs with low toxicity and preferable stability possess excellent performance potential for almost all water remedying techniques in contrast to other MOF structures, especially visible light photocatalysis, Fenton, and Fenton-like heterogeneous catalysis. Fe-MOFs become essential tool for water treatment due to their high catalytic activity, abundant active site and pollutant-specific adsorption. However, the structural degradation under external chemical, photolytic, mechanical, and thermal stimuli is impeding Fe-MOFs from further improvement in activity and their commercialization. Understanding the shortcomings of structural integrity is crucial for large-scale synthesis and commercial implementation of Fe-MOFs-based water treatment techniques. Herein we summarize the synthesis, structure and recent advancements in water remediation methods using Fe-MOFs in particular more attention is paid for adsorption, heterogeneous catalysis and photocatalysis with clear insight into the mechanisms involved. For ease of analysis, the pollutants have been classified into two major classes; inorganic pollutants and organic pollutants. In this review, we present for the first time a detailed insight into the challenges in employing Fe-MOFs for water remediation due to structural instability. peerReviewed
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-12-01 | Chemosphere |