Synthesis of sustainable poly(S-Abietic-co-Pinene) through inverse vulcanization of Kurdica gum and used to fabricate durable and recyclable super-hydrophobic cotton wool filter: Oil-water separation application

多硫化物 硫化 材料科学 化学工程 松香 接触角 复合材料 高分子化学 化学 树脂酸 天然橡胶 电极 电解质 工程类 物理化学
作者
Ali Ashraf Derakhshan,Meghdad Pirsaheb,Sirus Zinadini
出处
期刊:Progress in Organic Coatings [Elsevier BV]
卷期号:168: 106862-106862 被引量:7
标识
DOI:10.1016/j.porgcoat.2022.106862
摘要

The renewable and sustainable poly(S-Abietic- co -Pinene) with a high sulfur content was synthesized by inverse vulcanization of elemental sulfur and natural kurdica gum (extracted from the Pistacia atlantica tree). This hydrophobic polysulfide (KPS) is dip-coated on cotton wool to obtain a super-hydrophobic filter with a water contact angle of 165°. All polysulfide and coated filters are characterized by the FTIR, 13 CNMR, TGA, SEM, X-ray map, EDX, and WCA. The 3-Aminopropyltriethoxysilan (APTES) reagent was used to enhance the adhesive forces between cotton and the KPS coating. The super-hydrophobic cotton-KPS wool filters were conducted for six bi-phasic oil-water separations. The high separation efficiencies and permeate fluxes as well as the 100% rejection of the aqueous phase are advantages of cotton-KPS wool filters. Also, no significant change was observed in the separation efficiency after 20 recycling numbers, implying the high durability and stability of the super-hydrophobic coating on the cotton-KPS filter. The use of renewable natural materials for the synthesis of novel polymers and the fabrication of robust super-hydrophobic filters for oil water separation can be based on green chemistry and sustainable development principles. • Inverse vulcanization as a green synthesis method for polysulfide • A new sustainable and renewable polysulfide (KPS) from natural resources and industrial by-product • Fabrication of robust, durable and recyclable super-hydrophobic cotton-KPS filter • High efficient and high permeation flux oil water separation
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