生态与环境科学

论文将光芬顿反应材料普鲁士蓝与光热转换材料聚吡咯沉积在无纺布上，制备一种可漂浮的复合薄膜材料。施加光照时，复合薄膜可以同时进行光热转换驱动水蒸发和催化降解水中污染物。通过耦合太阳能光热转换和光芬顿反应，降解水中的有机污染物，获得清洁水。结果表明，随着普鲁士蓝和聚吡咯沉积量的逐渐增大，普鲁士蓝/聚吡咯/无纺布复合薄膜的光芬顿性能与太阳能光热转换界面蒸发性能均逐渐增强，当在无纺布上先后沉积普鲁士蓝15mg、聚吡咯48μL时，复合薄膜在120min内对甲基橙的降解率为98.4%，且5次循环仍保持催化性能稳定。这种光芬顿复合薄膜为太阳能催化净水技术的研究提供了一种高效的可行方案，具有很好的应用前景。

光芬顿；废水处理；催化降解；净水

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