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负载于木材表面的含氟及可见光敏化 Fe 掺杂 TiO 薄膜用于光催化降解气态甲醛。

Flame retardant and visible light-activated Fe-doped TiO thin films anchored to wood surfaces for the photocatalytic degradation of gaseous formaldehyde.

机构信息

Key Laboratory of High Efficient Processing of Bamboo of Zhejiang Province, China National Bamboo Research Center, Hangzhou 310012, PR China.

Key Laboratory of High Efficient Processing of Bamboo of Zhejiang Province, China National Bamboo Research Center, Hangzhou 310012, PR China.

出版信息

J Colloid Interface Sci. 2018 Nov 15;530:78-87. doi: 10.1016/j.jcis.2018.06.066. Epub 2018 Jun 23.

DOI:10.1016/j.jcis.2018.06.066
PMID:29960911
Abstract

Flame retardant and visible light-activated Fe-doped TiO thin films were anchored to wood surfaces by a facile precipitation method for the photocatalytic degradation of gaseous formaldehyde. All of the as-prepared TiO thin films exhibited the anatase crystal structure and grew on the wood surfaces by the aggregation of nanoparticles with diameters ranging from 11 to 16 nm. The UV-vis diffuse reflectance spectroscopy (UV-vis DRS) results showed that the presence of a small amount of iron ions in the TiO matrix could significantly extend the optical responses in the UV to visible region. Compared to the pure TiO/wood samples, the Fe-doped TiO/wood samples exhibited higher photocatalytic activities under visible light irradiation. The optimum n/n molar ratio was 2.0 at. %. The electron spin resonance (ESR) tests further confirmed that the active oxygen species of OH and O that were generated on the Fe-doped TiO/wood samples under visible light irradiation are responsible for the degradation of formaldehyde. The Fe-doped TiO samples also exhibited high stability and reusability after 6 cycles. Additionally, the limiting oxygen index of the original wood increased from 24.8% to 33.9% after it was coated with Fe-doped TiO thin films, indicating a significant improvement in its flame resistance.

摘要

通过简便的沉淀法将阻燃和可见光激活的掺铁 TiO 薄膜固定在木材表面,用于气相甲醛的光催化降解。所有制备的 TiO 薄膜均表现出锐钛矿晶体结构,并通过直径为 11 至 16nm 的纳米颗粒聚集在木材表面生长。紫外可见漫反射光谱(UV-vis DRS)结果表明,TiO 基体中少量铁离子的存在可以显著扩展紫外光至可见光区域的光响应。与纯 TiO/木材样品相比,掺铁 TiO/木材样品在可见光照射下表现出更高的光催化活性。最佳 n/n 摩尔比为 2.0。电子自旋共振(ESR)测试进一步证实,在可见光照射下,掺铁 TiO/木材样品上生成的活性氧物种 OH 和 O 负责甲醛的降解。经过 6 次循环后,掺铁 TiO 样品仍表现出高稳定性和可重复使用性。此外,原始木材的极限氧指数从 24.8%增加到涂覆掺铁 TiO 薄膜后的 33.9%,表明其阻燃性能有了显著提高。

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