Reusable and Biodegradable Separation Membranes Prepared from Common Mushrooms for the Removal of Oily and Particulate Contaminants from Water

Abstract: Mushroom chitin membranes with controllable pore structures were fabricated through a simple process with naturally abundant Agaricus bisporus mushrooms. A freeze-thaw method was applied to alter the pore structures of the membranes, which consist of chitin fibril clusters within the glucan matrix. With tunable pore size and distribution, mushroom chitin membranes could effectively separate stable oil/water emulsions (dodecane, toluene, isooctane, and chili oil) with various chemical properties and concentrati… Show more

“…In this context, natural biopolymers are promising candidates for the design and construction of adsorption–separation membranes. , Cellulose as one of the most abundant biopolymers on earth has attracted much attention as a promising biomass material to fabricate functional materials due to its advantages of low cost, biodegradability, nontoxicity, eco-friendliness, and high hydrophilicity. , Therefore, numerous cellulose-based membranes with underwater superoleophobic properties have been successfully developed for wastewater treatment such as oil–water separation, dye adsorption, and heavy metal removal. − For example, Chen’s group successfully fabricated the regenerated kapok cellulose fiber membrane with underwater superoleophobicity and satisfactory mechanical properties via dissolution and self-assembled regeneration strategy, which presented outstanding purification efficiency of 99.9% for oily wastewater. Recently, following the principles of sustainability, resource reuse, and environmental protection, numerous cellulose-based membranes fabricated from waste paper (WP) have been developed and successfully employed in the field of wastewater remediation. ,,, WP as one of the most common biomass wastes in our life contains the main component of cellulose (>60 wt %) .…”

Construction of Waste Paper-Chitosan-Based Membranes with pH-Tunable Surface Charge for Efficient Separation of Oil-in-Water Emulsion and Dye

“…In this context, natural biopolymers are promising candidates for the design and construction of adsorption–separation membranes. , Cellulose as one of the most abundant biopolymers on earth has attracted much attention as a promising biomass material to fabricate functional materials due to its advantages of low cost, biodegradability, nontoxicity, eco-friendliness, and high hydrophilicity. , Therefore, numerous cellulose-based membranes with underwater superoleophobic properties have been successfully developed for wastewater treatment such as oil–water separation, dye adsorption, and heavy metal removal. − For example, Chen’s group successfully fabricated the regenerated kapok cellulose fiber membrane with underwater superoleophobicity and satisfactory mechanical properties via dissolution and self-assembled regeneration strategy, which presented outstanding purification efficiency of 99.9% for oily wastewater. Recently, following the principles of sustainability, resource reuse, and environmental protection, numerous cellulose-based membranes fabricated from waste paper (WP) have been developed and successfully employed in the field of wastewater remediation. ,,, WP as one of the most common biomass wastes in our life contains the main component of cellulose (>60 wt %) .…”

Construction of Waste Paper-Chitosan-Based Membranes with pH-Tunable Surface Charge for Efficient Separation of Oil-in-Water Emulsion and Dye

The function and application of edible fungal polysaccharides

Tailoring alkyl ketene dimer on structural-properties relationship of cellulose-based materials: a short review