Using deep eutectic solvents for the in-situ synthesis of graphene-metal nanohybrids and nanocomposite membranes for dye desalination

Mehrabi, Novin; Aich, Nirupam

doi:10.1016/j.jece.2022.109101

Cited by 2 publications

(2 citation statements)

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“…Mehrabi and Aich [145] removed initial dye concentration of 10 mg L −1 by filtration using the MF membrane manufactured by fixation of DES-GO/TiO 2 on the PES substrate, and the final membrane was NF. Although the fabricated membrane had better performance under UV, it was not mentioned as a photocatalytic in the paper; therefore, it was categorized in the nonphotocatalytic polymeric NHMs in Table 4.…”

Section: Polymeric Nhms Not Produced By Pimentioning

confidence: 99%

“…Although the researchers introduced different nanohybrids such as DES/GO-Fe 2 O 3 , DES/GOFe 3 O 4 , DES/GO-Ag, DES/GO-Au, and DES/GO-TiO 2 , the nanohybrid membrane of DES-GO/TiO 2 on PES was examined. [145] Sonication, filtration, electrospun, sol-gel, physical mixing/ blending, and LbL were among the NHM production methods in Table 4.…”

Section: Polymeric Nhms Not Produced By Pimentioning

confidence: 99%

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Advances in Nanohybrid Membranes for Dye Reduction: A Comprehensive Review

Taheri

2023

Global Challenges

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Separating valuable materials such as dyes from wastewater using membranes and returning them to the production line is a desirable environmental and economical procedure. However, sometimes, besides filtration, adsorption, and separation processes, pollutant destruction also can be suitable using photocatalytic membranes. The art of producing nanohybrid materials in contrast with nanocomposites encompasses nanomaterial synthesis as a new product with different properties from raw materials for nanohybrids versus the composition of nanomaterials for nanocomposites. According to the findings of this research, confirming proper synthesis of nanohybrid is one challenge that can be overcome by different analyses, other researchers' reports, and the theoretical assessment of physical or chemical reactions. The application of organic‐inorganic nanomaterials and frameworks is another challenge that is discussed in the present work. According to the findings, Nanohybrid Membranes (NHMs) can achieve 100% decolorization, but cannot eliminate salts and dyes, although the removal efficiency is notable for some salts, especially divalent salts. Hydrophilicity, antifouling properties, flux, pressure, costs, usage frequency, and mechanical, chemical, and thermal stabilities of NHMs should be considered.

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Section: Polymeric Nhms Not Produced By Pimentioning

confidence: 99%

Section: Polymeric Nhms Not Produced By Pimentioning

confidence: 99%