纺织学报 ›› 2018, Vol. 39 ›› Issue (01): 104-110.doi: 10.13475/j.fzxb.20170503407

• 染整与化学品 • 上一篇    下一篇

杜仲纳米银的制备及其对直接橙26的催化还原降解

  

  • 收稿日期:2017-05-17 修回日期:2017-10-30 出版日期:2018-01-15 发布日期:2018-01-16

Biosynthesis of Eucommia ulmoides silver nanoparticles and application thereof in reductive catalytic degradation of Direct Orange 26

  • Received:2017-05-17 Revised:2017-10-30 Online:2018-01-15 Published:2018-01-16

摘要:

为探索纳米银的绿色制备及其对染料的催化降解作用,选用杜仲提取物作为还原剂和稳定剂制备杜仲纳米银粒子,并使用杜仲纳米粒子对直接橙26进行催化还原降解。结果表明:杜仲纳米银溶液在紫外可见吸收光谱436 nm处存在明显的吸收峰,经激光粒径仪测得杜仲纳米银粒子的平均粒径为40 nm左右;使用杜仲纳米银和硼氢化钠对直接橙26进行还原降解时,不添加纳米银粒子时,直接橙26在30 min内几乎不发生任何还原降解,添加杜仲纳米银粒子时,30 min内直接橙26的催化降解率最高可达93.2%;不同温度条件下制备的杜仲纳米银粒子在粒径分布和催化性能方面存在差异,较低温度条件下制备的杜仲纳米银粒子具有更强的催化活性;经催化还原降解后,直接橙26分子中的偶氮基发生断裂,有效破坏了染料大分子的结构。

关键词: 杜仲纳米银, 催化性能, 直接橙26, 还原降解

Abstract:

In order to develop green synthesis of silver nanoparticles (AgNPs) and their catalytic reductions for organic dyes, the Eucommia Eucommia extract was selected as reducing and capping agent for AgNPs green synthesis, and catalytic reduction on Direct Orange 26 were conducted. It is revealed that AgNPs solution synthesized using Eucommia Ulmoides extract shows an intense peak at 436 nm in the UV-Vis spectrum, and the average diameter of AgNPs in the solution is the solution is around 40 nm measuring by the laser particle size analyzer. Catalytic reductions of Direct Orange 26 with NaBH4 and AgNPs were conducted. Without the existence of AgNPs, nearly no reduction for the Direct Orange 26 is carried out within 30 min. While, up to 93.2% of Direct Orange 26 is degraded after 30 min with the addition of AgNPs. Furthermore, the catalytic performance of AgNPs synthesized at different reaction temperatures shows variations on particles size distributions and catalytic performances. AgNPs synthesized at relative low temperature showed higher catalytic activity. After reductive degradation, azo groups in the dye molecular are broken, which also destroyed the macromolecular structure of Direct Orange 26.

Key words: Eucommia ulmoides silver nanoparticle, catalytic performance, Direct Orange 26, reductive degradation

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