Multi-functional silk fibers/fabrics with a negligible impact on comfortable and wearability properties for fiber bulk

丝绸 材料科学 复合材料 纤维 织物 涂层 极限抗拉强度 原子层沉积 断裂强度 图层(电子)
作者
Zihui Liang,Zezhu Zhou,Jing Li,Shiliang Zhang,Binghai Dong,Li Zhao,Congcong Wu,Huiyu Yang,Fengxiang Chen,Shimin Wang
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:415: 128980-128980 被引量:59
标识
DOI:10.1016/j.cej.2021.128980
摘要

As a luxurious textile for more than five thousand years, silk fibers/products have always been favored by consumers and the markets, but the poor photostability seriously hinders its utilization in fashionable apparel. Even if enduing the functionality of silk fiber through surface modification, it is often at the expense of its comfort. Here, an ultra-thin amorphous titanium dioxide nano-film with a thickness of only five in a thousand of fiber diameter and the add-on percentage ≤ 5.33% was prepared on the surface of silk fibers/fabrics by atomic layer deposition (ALD) methods. The tensile strength of the modified silk fiber maintains 89.17% of the original fiber after exposure to UV light for 672 h. They can also withstand multi-cycle laundering and accelerate light-aging, which exhibiting an excellent UV resistance. Most importantly, the functional coating has a negligible impact on the comfortable and wearability performance of silk fibers/fabrics. In addition, ALD-coated silk fabric is also further used as an outdoor reflective cooling material and achieving a superior thermal insulation effect with the temperature reduction up to 10.1 °C.

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