Metal–organic frameworks for dye sorption: structure–property relationships and scalable deposition of the membrane adsorber

Chi, Heng‐Yu; Hung, Shao-Hsiang; Kan, Ming-Yang; Lee, Li‐Wei; Lam, Chon Hei; Chen, Jiun-Jen; Kang, Dun‐Yen

doi:10.1039/c8ce01066h

Cited by 35 publications

(12 citation statements)

References 88 publications

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“…106 Till date, thousands of MOFs structures are found in the Cambridge Structural Database (CSD), and the number will continue to increase due to multiple metal−organic combinations. 107,108 The potential properties of MOFs such as porosity, large surface area, and chemical stability make them ideal candidates for a variety of applications such as gas storage/separation, 109 catalysis, 110,111 sensing, 112−114 drug delivery, 115,116 proton conduction, 117−119 dye adsorption, 120 ferroelectricity, 121 energy conversion, 122 and degradation of CWAs. 123 Before shifting our focus to the detection and detoxification of CWAs using MOFs, it is essential to highlight the chemistry behind the construction and functionalization of MOFs to achieve desirable properties.…”

Section: Metal Organic Frameworkmentioning

confidence: 99%

“… − The combination of metal units and organic linkers forms an extensive class of structured MOF architectures, which could be categorized on the basis of dimensionalitiesfrom zero to three-dimensional superstructures . Till date, thousands of MOFs structures are found in the Cambridge Structural Database (CSD), and the number will continue to increase due to multiple metal–organic combinations. , The potential properties of MOFs such as porosity, large surface area, and chemical stability make them ideal candidates for a variety of applications such as gas storage/separation, catalysis, , sensing, − drug delivery, , proton conduction, − dye adsorption, ferroelectricity, energy conversion, and degradation of CWAs …”

Section: Metal Organic Frameworkmentioning

confidence: 99%

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Metal Organic Framework Functionalized Textiles as Protective Clothing for the Detection and Detoxification of Chemical Warfare Agents—A Review

Balasubramanian

Kulandaisamy

Babu

et al. 2021

Ind. Eng. Chem. Res.

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Chemical warfare agents (CWAs) have been listed as lethal weapons of mass destruction due to their extreme toxicity and devastating effects. Detection and detoxification are essential to protect ourselves from such acutely perilous agents and have therefore generated a great deal of research interest. In this context, studies show that adsorbents such as activated carbon, metal oxides, and metal organic frameworks (MOFs) are active materials for the effective degradation of CWAs. Among them, MOFs are preferred because of their large surface area, tunable porosity, and catalytic, functional, and chemical stability properties. With this background, we comprehensively review the historical purview of the utility of CWAs, the potency of various CWAs, and their toxic profiles. Further, we discuss the research strategies reported to synthesize MOFs of desirable characteristics by tuning the synthesis parameters such as solvents, temperature, guest molecules, and organic ligands. Specifically, we highlight the multifarious studies of the impregnation of MOFs onto fibers/textiles as selfprotecting fabrics using different techniques. Finally, we enumerate the challenges in developing MOFs-incorporated textiles and their functionalization toward the detection and detoxification of CWAs. As a future perspective, further requirements and possibilities of using MOF-modified textiles as wearable electronic devices for the detection and detoxification of CWAs have also been addressed.

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Section: Metal Organic Frameworkmentioning

confidence: 99%

Section: Metal Organic Frameworkmentioning

confidence: 99%

Metal Organic Framework Functionalized Textiles as Protective Clothing for the Detection and Detoxification of Chemical Warfare Agents—A Review

Balasubramanian

Kulandaisamy

Babu

et al. 2021

Ind. Eng. Chem. Res.

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show abstract

“…[8][9][10][11] The focus has, indeed, moved on to layered adsorption membranes made of nanoscaled adsorbents as zeolites, MOFs, graphene oxide and other compounds. [12][13][14][15][16][17][18][19] Considering, for example, nanocellulose based materials, inspired by the concept of thin-lm nanocomposites, both Cao et al 20 and Ma et al 9 introduced into the membranes thin TOCNF layers by casting and impregnating electrospun mats, which were prepared and characterized for ultraltration with pore sizes in the 10-100 nm range. 9,20 TEMPO-oxidised cellulose nanobers (TOCNF) have been established as highly functional and biobased adsorbents for water purication due to their high specic surface area, abundant functionality, high strength and crystallinity.…”

Section: Introductionmentioning

confidence: 99%

Design of ultrathin hybrid membranes with improved retention efficiency of molecular dyes

et al. 2019

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“…Adsorption is considered as a fast method to treat dye pollution which effectively works with different types of dyes. Among different adsorbents used for this method, metal-organic framework (MOF) materials have attracted increasing attention due to their particularly high specific surface areas [22][23][24].…”

Section: Introductionmentioning

confidence: 99%

Investigation into the Adsorption of Methylene Blue and Methyl Orange by UiO-66-NO2 Nanoparticles

Dinh

Tran

Trinh

2021

Journal of Analytical Methods in Chemistry

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In this work, the adsorptive removal of methylene blue and methyl orange by UiO-66-NO2 nanoparticles was studied. The influence of pH on the adsorption capacity was assessed. The kinetics of the adsorption process were investigated and compared with pseudo-first-order, pseudo-second-order, Elovich, and intraparticle models. The kinetics of the adsorption fits moderately with the pseudo-first-order, but perfectly fits with pseudo-second-order models, and has a very good fit with the Elovich and intraparticle models. The adsorption isotherms were measured and compared with the Langmuir and Freundlich models. The adsorption capacity of methyl orange (MO) on UiO-66-NO2 nanoparticles (142.9 mg/g) was over three times higher than that of methylene blue (MB) on the nanoparticles (41.7 mg/g). The discrepancy between these capacities was attributed to the presence of the -NO2 functional group, which caused a strong negative mesomeric effect in the metal-organic framework structure.

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Metal–organic frameworks for dye sorption: structure–property relationships and scalable deposition of the membrane adsorber

Abstract: The metal–organic framework-based membrane adsorber is applied to sorption of dye molecules.

Cited by 35 publications

References 88 publications

Metal Organic Framework Functionalized Textiles as Protective Clothing for the Detection and Detoxification of Chemical Warfare Agents—A Review

Metal Organic Framework Functionalized Textiles as Protective Clothing for the Detection and Detoxification of Chemical Warfare Agents—A Review

Design of ultrathin hybrid membranes with improved retention efficiency of molecular dyes

Investigation into the Adsorption of Methylene Blue and Methyl Orange by UiO-66-NO2 Nanoparticles

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