Highly Efficient Separation for Aqueous Viscous Oils Enabled by a Wood-Based Cellulose Aerogel with a Superhydrophilic Protonated Coating

Abstract: Superhydrophilic materials, renowned for their capacity to establish a hydration layer that effectively mitigates oil pollution, have garnered considerable attention for oil−water separation. However, these materials have difficulties in separating water from high-viscosity oils, which can easily adhere to the surfaces of the materials, resulting in reduced separation efficiencies. In this work, a superhydrophilic wood-based cellulose aerogel coated with a protonated nanocomposite chitosan coating (PPNC-CS) wa… Show more

“…However, most of the high-performance sorbent materials are not cost-effective for large-scale production, and most of the commercially available sorbents are made from nonrenewable polyurethane foams or polypropylene fibers . Other suggested techniques such as nanofibrous gel composites, fluorinated graphene oxide, nonporous fluorinated polyimides, fluorine-functionalized covalent organic framework, MOF-based porous materials, , poly­( N -isopropylacrylamide) hydrogel, fabric materials, cellulose aerogel, composite membranes, and Janus membranes − are used for oil–water separation. Also, phase-selective oleogelators (PSOGs) , are not practically accessible since it is difficult to apply the gelator uniformly and remove the delicate gel-like mass of congealed oil from the surface of sea. − Therefore, the development of an efficient and feasible scalable technique to tackle oil spills is urgently needed.…”

Used Cooking Oil-Derived Fluorinated Porous Polysulfide Materials for Oil Spill Remediation: A Waste-to-Wealth by Sustainable Initiative

“…However, most of the high-performance sorbent materials are not cost-effective for large-scale production, and most of the commercially available sorbents are made from nonrenewable polyurethane foams or polypropylene fibers . Other suggested techniques such as nanofibrous gel composites, fluorinated graphene oxide, nonporous fluorinated polyimides, fluorine-functionalized covalent organic framework, MOF-based porous materials, , poly­( N -isopropylacrylamide) hydrogel, fabric materials, cellulose aerogel, composite membranes, and Janus membranes − are used for oil–water separation. Also, phase-selective oleogelators (PSOGs) , are not practically accessible since it is difficult to apply the gelator uniformly and remove the delicate gel-like mass of congealed oil from the surface of sea. − Therefore, the development of an efficient and feasible scalable technique to tackle oil spills is urgently needed.…”

Used Cooking Oil-Derived Fluorinated Porous Polysulfide Materials for Oil Spill Remediation: A Waste-to-Wealth by Sustainable Initiative

Highly strength and flame-retardant aerogel cooler with reticular porous structures for building energy saving