材料科学
光催化
双功能
二氧化钛
吸附
污染物
沸石
化学工程
催化作用
降级(电信)
水处理
饮用水净化
传质
纳米技术
纳米复合材料
双功能催化剂
钛
比表面积
表面改性
纳米颗粒
二氧化硅
复合数
分解水
作者
M. Ilyina Yu.,Jian Lei,Zhijun Shi,Shuo Zhang,Chunyuan Chen,Yaxin Lv,Ke Wang,Rusi Peng,Shiqing Li,Jie Tuo,Shifu Chen,Zheng Wan,Sugang Meng,Peng Wu
标识
DOI:10.1021/acsami.5c19933
摘要
We synthesized a biomimetic composite material with a cell membrane-like structure (denoted TE-35), using a microwave-assisted impregnation method to deposit commercial nanoscale titanium dioxide onto the layered zeolite ECNU-35. The layered zeolite support leverages its high specific surface area and large pore volume to provide exceptional mass transfer efficiency and pollutant enrichment capability while simultaneously ensuring the uniform and stable distribution of photocatalytic active centers. Under light irradiation, TE-35 exhibits 10%-50% enhanced pollutant removal efficiency in comparison to catalysts with bulk or thicker nanosheets morphologies. The catalytic performance of TE-35 could be effectively regenerated through washing and calcination. Experimental and computational studies reveal that the biomimetic structure of TE-35 significantly enhances the adsorption and degradation efficiency of organic substances. In addition, titanium dioxide on TE-35 displayed an advantageous photogenerated carrier separation efficiency. This study not only expands the material options for treating polluted water but also provides valuable insights for the design of advanced biomimetic materials.
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