Utilization of green resource-based Mimosa pudica hydrogel powder in a cellulose acetate-based polymeric membrane as absorbent: a sustainable approach towards female hygiene application†

Roshni Pattanayak, Sukanya Pradhan and Smita Mohanty
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Abstract

This study presents the development of a novel membrane-based absorbent by incorporating Mimosa pudica hydrogel (MPH) powder, derived from the mucilage of its seeds, into a cellulose acetate polymer matrix using the non-solvent induced phase separation (NIPS) method. The membranes were prepared with varying weight percentages (wt%) of MPH to evaluate their potential as absorbent cores for hygiene products. The enhanced absorbency observed for 1 wt% MPH-loaded cellulose acetate membrane (MCA-2) was attributed to the MPH powder's large surface area and macroporous structure, as confirmed by Brunauer–Emmett–Teller (BET) analysis. The MCA-2 membrane exhibited maximum absorbency values of 276.66%, 402.87%, and 572.5% in distilled water, 0.9 wt% saline solution, and defibrinated sheep blood, respectively, within 30 minutes along with an absorbency under load value of 439.69% in saline solution at 60 minutes. An in-depth analysis of the thermal, mechanical, morphological and topographical properties of the developed membrane was conducted. This exhibited a modulus value of approximately 120 ± 0.5 MPa with 13.07 ± 0.2% elongation and also possessed significant antibacterial properties against E. coli and S. aureus bacteria justifying its potential as an absorbent core. Additionally, 16S rRNA sequencing was performed to identify bacteria involved in soil burial degradation, highlighting its overall impact and sustainability towards the environment. These findings suggest that MPH-incorporated membranes hold significant promise as absorbent materials in female hygiene applications.

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在醋酸纤维素聚合物膜中利用基于绿色资源的含羞草水凝胶粉末作为吸收剂:实现女性卫生应用的可持续方法†。
本研究采用非溶剂诱导相分离(NIPS)方法,将从含羞草种子粘液中提取的含羞草水凝胶(MPH)粉末加入到醋酸纤维素聚合物基质中,从而开发出一种新型膜基吸收剂。制备了不同重量百分比(wt%)的 MPH 膜,以评估其作为卫生产品吸收芯的潜力。经布鲁纳-埃美特-泰勒(BET)分析证实,1 wt% MPH负载的醋酸纤维素膜(MCA-2)的吸水性增强,这归功于MPH粉末的大表面积和大孔结构。MCA-2 膜在蒸馏水、0.9 wt% 生理盐水和去纤羊血中的吸收率在 30 分钟内分别达到 276.66%、402.87% 和 572.5%,在生理盐水中的吸收率在 60 分钟内达到 439.69%。对所开发膜的热学、机械、形态和地形特性进行了深入分析。其模量值约为 120 ± 0.5 兆帕,伸长率为 13.07 ± 0.2%,对大肠杆菌和金黄色葡萄球菌具有显著的抗菌特性,证明其具有作为吸收芯的潜力。此外,还进行了 16S rRNA 测序,以确定参与土壤掩埋降解的细菌,从而突出其对环境的整体影响和可持续性。这些研究结果表明,MPH-incorporated 膜作为吸收材料在女性卫生应用中大有可为。
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