引用本文: | 卢金龙,黄婷,肖荣诗.飞秒激光刻蚀微结构对NaOH水热法制备TiO2光催化性能的影响[J].中国表面工程,2017,30(4):101~107 |
| LU Jin-long,HUANG Ting,XIAO Rong-shi.Influence of Femtosecond Laser Structuring on Photocatalytic Properties of TiO2 Fabricated by NaOH Hydrothermal Treatment[J].China Surface Engineering,2017,30(4):101~107 |
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摘要: |
Ti基底三维微纳米结构TiO2(3D-TiO2)具有比表面积大、光捕获能力强、电荷传输快、可循环利用的优点,在光催化领域具有重要的研究意义和应用前景。采用飞秒激光刻蚀复合NaOH水热法制造Ti基底3D-TiO2,并研究飞秒激光刻蚀的微阵列结构对3D-TiO2光催化性能的影响。采用激光共聚焦显微镜(LSCM)、SEM、TEM、XRD对3D-TiO2进行表征分析,并对3D-TiO2在紫外光照下进行甲基橙降解性能测试。结果表明,复合方法制备的3D-TiO2由飞秒激光刻蚀的微阵列和NaOH水热法制备的TiO2纳米线组成。与采用NaOH水热法直接在平整Ti表面制备的TiO2纳米线相比,3D-TiO2的染料吸附能力提升100%,光催化性能提升37%。微阵列结构尺寸对3D-TiO2的性能具有明显影响,随着微阵列宽度的减小或高度的增加,3D-TiO2的比表面积增大、入射光反射率降低、光催化性能提高。 |
关键词: 飞秒激光 水热法 TiO2 微纳米结构 光催化 |
DOI:10.11933/j.issn.1007-9289.20161220002 |
分类号:TG174.44 |
基金项目:北京市科技新星计划(Z141104001814109);国家自然科学基金(51675013) |
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Influence of Femtosecond Laser Structuring on Photocatalytic Properties of TiO2 Fabricated by NaOH Hydrothermal Treatment |
LU Jin-long, HUANG Ting, XIAO Rong-shi
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Institute of Laser Engineering, Beijing University of Technology, Beijing 100124
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Abstract: |
The fabrication of three dimensional micro-nanostructured TiO2 (3D-TiO2) on Ti substrate for photocatalysis has attracted continued interests from both scientific research and industrial applications, mainly due to the structure-induced properties including large specific surface area, superior light harvesting capacity and prominent carrier mobility. 3D-TiO2 was fabricated through femtosecond laser ablation and NaOH hydrothermal treatment. The structure, morphology, and phase of 3D-TiO2 were examined by laser confocal scanning microscopy (LCSM), SEM, TEM and XRD. Results show that as-fabricated 3D-TiO2 is composed of microarrays and nanowires, fabricated by femtosecond laser ablation and NaOH hydrothermal treatment, respectively. The 3D-TiO2 exhibites enhanced performances in absorption ability and photocatalytic efficiency than TiO2 nanowires grown on flat Ti surface, which directly result in obvious improved photodegradation efficiency (100% and 37% increase for absorption ability and photocatalytic efficiency respectively). In addition, the width and depth of the femtosecond laser ablated microarrays significantly affect the photocatalytic performances of 3D-TiO2. The photocatalytic activity of 3D-TiO2 is improved with the decrease of width or increase of depth due to higher incident light harvesting capacity and large specific surface. |
Key words: femtosecond laser hydrothermal treatment TiO2 micro/nanostructure photocatalyst |