Hydrogel/β-FeOOH-Coated Poly(vinylidene fluoride) Membranes with Superhydrophilicity/Underwater Superoleophobicity Facilely Fabricated via an Aqueous Approach for Multifunctional Applications

Tang, Yin; Zhu, Tiejun; Liu, Huichao; Tang, Zheng; Kuang, Xingwen; Qiao, Yongna; Zhang, Hao; Zhu, Caizhen

doi:10.3390/polym15040839

Cited by 6 publications

(1 citation statement)

References 53 publications

(58 reference statements)

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“…In comparison with xyloglucan, glucuronan and some the ulvans which are hydro soluble, cellulose is insoluble and can be separated from the other polysaccharides [ 21 ]. Currently, cellulose is one of the most commonly used substrates and has a wide range of uses, from the textile industry, tissue engineering, the biomedical industry and pharmaceuticals to the food industry and wastewater treatment [ 12 , 22 , 23 ]. Separation of cellulose from Ulva lactuca is easier to perform in the absence of lignin because there is no delignification in the separation scheme.…”

Section: Introductionmentioning

confidence: 99%

Extraction of Cellulose from Ulva lactuca Algae and Its Use for Membrane Synthesis

Patrichi,

Cioroiu Tirpan,

Aljanabi

et al. 2023

Polymers

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Green algae are a sustainable source of biopolymers for the global demand due to their high photosynthetic efficiency. This article describes the extraction of cellulose from plant systems represented by Ulva lactuca species. In order to extract various substances, algae were finely ground with the help of solvents (liquid media). This was carried out to achieve the necessary conditions that help reduce the resistance this phase shows in regard to the transport and transfer of the species being extracted. The highest yield of extracted cellulose (20,944%) was obtained for the following factors: S/L = 1/20; conc. ethanol = 90%, conc. salts = 4 g/L. Hydrogel membranes are a unique class of macromolecular networks that contain a large fraction of aqueous solvent within their structure. With the cellulose extracted from algae, we obtained membranes which underwent the process of swelling in liquid media (ethyl alcohol) of different concentrations. The swelling of biocellulose membranes in alcoholic solutions of high concentrations was investigated. It was observed that the process of absorption of the alcoholic solution by the membrane occurred rapidly in the first part. After stabilization, the membranes continued to absorb at a slower rate until stabilization or saturation concentration was reached.

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