Metal-organic framework-based foams for efficient microplastics removal

Microplastics are a worldwide problem that poses a giant threat to organisms in the ecosystem and even to human health. The removal of microplastics is a severe challenge that needs to be solved urgently. Herein, a series of zirconium metal-organic framework-based foam materials with interpenetrated...

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Published inJournal of materials chemistry. A, Materials for energy and sustainability Vol. 8; no. 29; pp. 14644 - 14652
Main Authors Chen, Yong-Jun, Chen, Yifa, Miao, Chang, Wang, Yi-Rong, Gao, Guang-Kuo, Yang, Ru-Xin, Zhu, Hong-Jing, Wang, Jian-Hui, Li, Shun-Li, Lan, Ya-Qian
Format Journal Article
LanguageEnglish
Published Cambridge Royal Society of Chemistry 28.07.2020
Subjects
durability
Filtration
Foamed metals
Foams
Metal-organic frameworks
Microplastics
recycling
Seawater
solar radiation
Zirconium
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Abstract Microplastics are a worldwide problem that poses a giant threat to organisms in the ecosystem and even to human health. The removal of microplastics is a severe challenge that needs to be solved urgently. Herein, a series of zirconium metal-organic framework-based foam materials with interpenetrated pores, high MOF uniformity and excellent durability have been successfully fabricated and applied in simulated microplastics removal in water or seawater conditions. They can be applied to various types and concentrations of microplastics suspensions. It is worth noting that the best of them, UiO-66-OH@MF-3, can efficiently remove microplastics with an efficiency of up to 95.5 ± 1.2% and can maintain high performance in recycling and large-quantity filtration experiments. Besides, we proposed an automatic filtration system powered by sunlight and accomplished it on the lab-scale. The high performances of these foam materials combined with the new concept of automatic filtration systems might shed some light on the development of novel techniques for microplastics removal. Zirconium metal-organic frameworks based foam materials have been successfully fabricated and applied in microplastic removal with high efficiency.
AbstractList Microplastics are a worldwide problem that poses a giant threat to organisms in the ecosystem and even to human health. The removal of microplastics is a severe challenge that needs to be solved urgently. Herein, a series of zirconium metal–organic framework-based foam materials with interpenetrated pores, high MOF uniformity and excellent durability have been successfully fabricated and applied in simulated microplastics removal in water or seawater conditions. They can be applied to various types and concentrations of microplastics suspensions. It is worth noting that the best of them, UiO-66-OH@MF-3, can efficiently remove microplastics with an efficiency of up to 95.5 ± 1.2% and can maintain high performance in recycling and large-quantity filtration experiments. Besides, we proposed an automatic filtration system powered by sunlight and accomplished it on the lab-scale. The high performances of these foam materials combined with the new concept of automatic filtration systems might shed some light on the development of novel techniques for microplastics removal.
Microplastics are a worldwide problem that poses a giant threat to organisms in the ecosystem and even to human health. The removal of microplastics is a severe challenge that needs to be solved urgently. Herein, a series of zirconium metal-organic framework-based foam materials with interpenetrated pores, high MOF uniformity and excellent durability have been successfully fabricated and applied in simulated microplastics removal in water or seawater conditions. They can be applied to various types and concentrations of microplastics suspensions. It is worth noting that the best of them, UiO-66-OH@MF-3, can efficiently remove microplastics with an efficiency of up to 95.5 ± 1.2% and can maintain high performance in recycling and large-quantity filtration experiments. Besides, we proposed an automatic filtration system powered by sunlight and accomplished it on the lab-scale. The high performances of these foam materials combined with the new concept of automatic filtration systems might shed some light on the development of novel techniques for microplastics removal. Zirconium metal-organic frameworks based foam materials have been successfully fabricated and applied in microplastic removal with high efficiency.
Author Miao, Chang
Lan, Ya-Qian
Chen, Yifa
Wang, Yi-Rong
Chen, Yong-Jun
Li, Shun-Li
Yang, Ru-Xin
Wang, Jian-Hui
Gao, Guang-Kuo
Zhu, Hong-Jing
AuthorAffiliation Nanjing Normal University
Changzhou Institute of Innovation & Development
Jiangsu Key Laboratory of New Power Batteries
School of Chemistry and Materials Science
Jiangsu Collaborative Innovation Centre of Biomedical Functional Materials
AuthorAffiliation_xml – name: School of Chemistry and Materials Science
– name: Jiangsu Collaborative Innovation Centre of Biomedical Functional Materials
– name: Changzhou Institute of Innovation & Development
– name: Nanjing Normal University
– name: Jiangsu Key Laboratory of New Power Batteries
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Snippet Microplastics are a worldwide problem that poses a giant threat to organisms in the ecosystem and even to human health. The removal of microplastics is a...
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SubjectTerms durability
Filtration
Foamed metals
Foams
Metal-organic frameworks
Microplastics
recycling
Seawater
solar radiation
Zirconium
Title Metal-organic framework-based foams for efficient microplastics removal
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https://www.proquest.com/docview/2477622761
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