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20 resultsShowing papers similar to Metal-Organic Frameworks for the Elimination of Microplastics from Water: A Review of Advances and Mechanisms.
ClearMicroplastics removal from aqueous environment by metal organic frameworks
This review examines how metal-organic frameworks (MOFs), a class of advanced porous materials, can remove 70-99.9% of microplastics from water in laboratory settings. MOFs can be customized with specific pore sizes and chemical properties to target different types of microplastics. While challenges remain with cost and scaling up, this technology shows promise for developing more effective water treatment systems to reduce human exposure to microplastics in drinking water.
The Application of Metal–Organic Frameworks in Water Treatment and Their Large-Scale Preparation: A Review
This review examines metal-organic frameworks (MOFs), highly porous materials being developed for water treatment that can remove pollutants including microplastics through filtration and catalytic breakdown. MOFs have exceptional surface area and can be tailored to target specific contaminants, making them promising for advanced water purification. The challenge remains scaling up MOF production for real-world water treatment use, which could help reduce human exposure to microplastics in drinking water.
Metal–organic framework applications for microplastic remediation: exploring pathways and future potential
This review examines how metal-organic frameworks (specialized porous materials) can be used to capture and remove microplastics from water. Microplastics are emerging contaminants that threaten aquatic ecosystems and human health. The paper explores different remediation pathways and the future potential of these advanced materials for cleaning up microplastic pollution.
Advances in metal-organic frameworks for microplastic removal from aquatic environments: Mechanisms and performance insights
Researchers reviewed over 65 studies on using metal-organic frameworks (MOFs) — highly porous, sponge-like materials — to remove microplastics from water, finding some MOFs achieved up to 98% removal efficiency and could be reused six times, making them a promising filtration technology for microplastic pollution.
Metal–Organic Frameworks (MOFs) for Adsorption and Degradation of Microplastics
This review examines metal-organic frameworks (MOFs), a class of porous materials, as a promising technology for capturing and breaking down microplastics in water. MOFs offer advantages over traditional filtration because they can be designed to target specific plastic types and sizes. While still mostly tested in laboratories, MOF-based approaches could help close the gap in water treatment where conventional methods fail to remove the smallest and most harmful microplastic particles.
Metal–organic framework-based foams for efficient microplastics removal
Scientists developed foam materials made from zirconium metal-organic frameworks that can efficiently capture microplastics from water, offering a promising filtration approach for water treatment applications. The porous foam structure provides high surface area for trapping plastic particles.
A review on metal organic frameworks (MOFs) modified membrane for remediation of water pollution
This review covers how metal-organic framework (MOF) materials can be incorporated into membranes to improve filtration of pollutants from contaminated water. The technology shows promise for removing microplastics and chemical contaminants, though most applications remain at laboratory scale.
Metal-organic framework membrane for waterborne micro/nanoplastics treatment
Researchers reviewed the potential of metal-organic framework (MOF) membranes — materials with highly tunable pore structures — to filter micro- and nanoplastics from water more effectively than conventional filtration. MOF membranes showed promise due to their adjustable surface chemistry and resistance to biological fouling, though challenges like particle clumping and structural stability still need to be resolved.
Nanoplastics Removal from Water using Metal–Organic Framework: Investigation of Adsorption Mechanisms, Kinetics, and Effective Environmental Parameters
Researchers developed a metal-organic framework material that can remove 96% of nanoplastics from water through an adsorption process. The material works by attracting the negatively charged nanoplastic particles to its surface through electrostatic forces and can be regenerated for repeated use. This technology could provide a practical solution for removing the tiniest and most dangerous plastic particles from drinking water.
Novel Materials for the Removal of Microplastics and Nanoplastics in Drinking Water Treatment: A Comprehensive Review
This review systematically assessed novel materials—including metal-organic frameworks, bio-based adsorbents, and advanced membranes—for removing microplastics and nanoplastics from drinking water. The authors found that conventional treatment removes as little as 48.4% of particles and that emerging nanomaterial-based approaches can achieve higher efficiencies, though scalability and cost remain barriers.
Nanotechnology-based approaches for the removal of microplastics from wastewater: a comprehensive review
This review summarizes how nanotechnology-based approaches could help remove microplastics from wastewater, since conventional treatment plants are not very effective at capturing the smallest particles. Materials like metal-organic frameworks, carbon nanomaterials, and advanced membranes show promise in lab settings for filtering out microplastics. However, scaling these technologies for real-world use and ensuring the nanomaterials themselves are safe remain major challenges.
Efficiency ofMOFs in Water Treatment Against the Emerging Water Contaminants Such as Endocrine Disruptors, Pharmaceuticals, Microplastics, Pesticides, and Other Contaminants
This review examines how metal-organic frameworks (MOFs) can remove a broad range of emerging water contaminants — including microplastics, pesticides, pharmaceuticals, and endocrine disruptors — from water. MOFs outperform conventional treatment methods because of their large surface area, tunable pore structure, and ability to work through both adsorption and photocatalysis. The paper highlights MOFs as a promising next-generation water treatment technology that could meaningfully reduce human and environmental exposure to microplastics and co-occurring pollutants.
Removal of microplastic and plasticizer from waterbodies; A review
Researchers reviewed a wide range of techniques for detecting and removing microplastics and chemical plasticizers (additives that make plastic flexible) from water, covering methods from microscopy to advanced oxidation and metal-organic frameworks. The review highlights that no single method works for all situations, and cost-effective, sustainable approaches tailored to specific pollutant types are still urgently needed.
An Advanced Approach of MOF-Mediated Microplastic Degradation After Confiscating Microplastics by MOFs
This review proposed using metal-organic frameworks (MOFs) as an advanced approach for capturing and degrading microplastics in aquatic environments, discussing MOF characteristics tailored for adsorption and the mechanisms underlying capture and degradation. The paper highlighted MOF interaction sites, photocatalytic degradation pathways, and challenges for scaling these approaches.
Application of metal-organic frameworks for photocatalytic degradation of microplastics: Design, challenges, and scope
This review examines how metal-organic frameworks can be designed and applied for photocatalytic degradation of microplastics in wastewater, addressing the challenge of microplastic hydrophobicity and their resistance to conventional treatment. The authors discuss design strategies, current performance limitations, and future directions for scaling photocatalytic MOF technology to practical remediation applications.
Synthetic approaches, classification, properties and application of Metal-organic Frameworks: A review
Despite its title referencing metal-organic frameworks (MOFs), this paper reviews the synthesis, classification, and applications of MOF materials in areas like catalysis, energy, and environmental remediation — not microplastic pollution. While MOFs have been explored as tools for removing pollutants from water, this paper does not focus on microplastics and is not directly relevant to microplastics research or human health.
Synthesis, characterization, and activation of metal organic frameworks (MOFs) for the removal of emerging organic contaminants through the adsorption-oriented process: A review
This review examines metal-organic frameworks (MOFs), a class of advanced materials, for removing emerging contaminants from water, including microplastics, dyes, pesticides, and pharmaceuticals. MOFs have extremely high surface areas and can be chemically tuned to target specific pollutants, making them promising for next-generation water treatment. The technology could help reduce human exposure to microplastics and other harmful substances in drinking water.
A review on microplastics degradation with MOF: Mechanism and action
This review examines how metal-organic frameworks (MOFs) can be used to break down microplastics through various mechanisms including hydrolysis, oxidation, and photodegradation. Researchers found that MOFs' large surface area and tunable pore sizes make them well-suited for capturing and degrading microplastic particles. While the field is still in its early stages, the study suggests that MOF-based approaches could represent a significant step forward in addressing microplastic pollution.
Metal-organic frameworks and plastic: an emerging synergic partnership
This review examines how metal-organic frameworks (MOFs), a class of crystalline nanoporous materials, can be used to address plastic pollution in water. Researchers found that MOFs show promise as adsorbents for removing micro- and nanoplastic particles, especially when integrated into composite materials or membranes, achieving high removal efficiency and water flow rates. The study also highlights an emerging trend of producing MOFs from plastic waste like PET as a sustainable source of raw materials.
Recent Developments in Metal‐Organic Frameworks for Water Purification: A Mini Review
This mini-review examines recent advances in using metal-organic frameworks (MOFs) for water purification, covering applications targeting heavy metals, pharmaceuticals, microplastics, dyes, and radionuclides. The authors highlight the versatile adsorption and degradation properties of MOFs and identify current limitations including stability and scalability that need to be addressed for practical water treatment deployment.