蜘蛛捕获-模仿丝的纤维,具有高性能的雾收集,来源于超亲水性和明胶结的体积膨胀

Yuanzhang Jiang, Harun Venkatesan, Shuo Shi, Cong Wang, Miao Cui, Qiang Zhang, Lin Tan, Jinlian Hu
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引用次数: 1

摘要

蜘蛛捕获丝(SCS)依靠其独特的几何结构,可以定向捕获和输送潮湿空气中的水分。虽然已经有很多关于用石油基材料制造人造SCS的报道,但如何同时创新具有高性能集雾能力和效率的生物基SCS模拟纤维仍然是一个巨大的挑战。在此,我们报告了一种环保和经济的纤维系统,通过在脱胶蚕丝上涂上明胶来收集水。与先前报道的捕雾能力最好的纤维(~ 13.10 μL)相比,明胶在蚕丝纤维10 (GSF10)上的捕雾能力更强(~ 16.70 μL),捕雾时间为330 s,捕雾质量减少了~ 98%。同时,在体积-气液固三相接触线指数方面,GSF10的集水效率比现有的最佳集水聚合物包覆的SCS纤维和蜘蛛状eMaSp2包覆的脱胶丝分别提高了72%和48%。超亲水性、表面能梯度和~ 65%水致体积膨胀是提高凝胶结集水性能的关键因素。丰富的原料可用性和提高约75%的空间利用率保证了这种生物基纤维的可扩展性和实际应用。图形抽象
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spider-capture-silk mimicking fibers with high-performance fog collection derived from superhydrophilicity and volume-swelling of gelatin knots

Spider-capture-silk (SCS) can directionally capture and transport water from humid air relying on the unique geometrical structure. Although there have been adequate reports on the fabrication of artificial SCSs from petroleum-based materials, it remains a big challenge to innovate bio-based SCS mimicking fibers with high-performance fog collection ability and efficiency simultaneously. Herein, we report an eco-friendly and economical fiber system for water collection by coating gelatin on degummed silk. Compared to the previously reported fibers with the best fog collection ability (~ 13.10 μL), Gelatin on silk fiber 10 (GSF10) can collect larger water droplet (~ 16.70 μL in 330 s) with ~ 98% less mass. Meanwhile, the water collection efficiency of GSF10 demonstrates ~ 72% and ~ 48% enhancement to the existing best water collection polymer coated SCS fibers and spidroin eMaSp2 coated degummed silk respectively in terms of volume-to-TCL (vapor–liquid-solid three-phase contact line) index. The simultaneous function of superhydrophilicity, surface energy gradient, and ~ 65% water-induced volume swelling of the gelatin knots are the key factors in advancing the water collection performance. Abundant availability of feedstocks and ~ 75% improved space utilization guarantee the scalability and practical application of such bio-based fiber.

Graphic Abstract

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来源期刊
Journal of Leather Science and Engineering
Journal of Leather Science and Engineering 工程技术-材料科学:综合
CiteScore
12.80
自引率
0.00%
发文量
29
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