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Chem. Rev综述:仿生二氧化钛材料的特殊湿度研究及其相关的应用(江雷院士出品)已有2人参与
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全文51页,参考文献618篇。 Bio-Inspired Titanium Dioxide Materials with Special Wettability and Their Applications Kesong Liu †, Moyuan Cao †, Akira Fujishima §, and Lei Jiang *†‡ Lei Jiang received his Ph.D. degree (1994) from Jilin University in China (Tiejin Li’s group). He then worked as a postdoctoral fellow in Prof. Akira Fujishima’s group at Tokyo University. In 1996, he worked as a senior researcher in the Kanagawa Academy of Sciences and Technology under Prof. Kazuhito Hashimoto. In 1999, he joined ICCAS as part of the Hundred Talents Program. In 2009, he was elected academician of the Chinese Academy of Sciences. He is currently a professor at ICCAS and Dean of the School of Chemistry and Environment, Beihang University. His research interest focuses on bioinspired interfacial functional materials. 1. Introduction 2. Fundamental Theories 2.1. UV Light-Induced Superhydrophilicity of TiO2 2.2. Typical Wetting Theories 3. Superhydrophilic Titanium Dioxide Materials 3.1. UV Light-Induced Superhydrophilicity 3.2. Visible Light-Induced Superhydrophilicity 3.3. Electrowetting-Induced Superhydrophilicity 3.4. Structure-Induced Superhydrophilicity 3.5. Thermo-Induced Superhydrophilicity 4. Superhydrophobic Titanium Dioxide Materials 4.1. Low-Adhesive Superhydrophobicity 4.2. High-Adhesive Superhydrophobicity 4.3. Superhydrophobic Surfaces with Switchable Water Adhesion 4.3.1. Light-Induced Switchable Adhesion 4.3.2. Surface Chemical Compositions-Induced Controllable Adhesion 4.3.3. Surface Structures-Induced Tunable Adhesion 5. Superhydrophilic–Superhydrophobic Patterns 5.1. Photomask-Induced Wetting Patterns 5.2. Inkjet-Induced Wetting Patterns 5.3. Rewritable Wetting Patterns 6. Superoleophobic Titanium Dioxide Materials 6.1. Superoleophobicity in Air 6.2. Underwater Superoleophobicity 7. Titanium Dioxide Surfaces with Switchable Wettability 7.1. UV Light 7.2. Visible Light 7.3. Thermal Stimulus 7.4. Electric Potential 7.5. Multi-Stimuli 7.6. Switchable Oil Wettability 8. Application of Titanium Dioxide Materials with Special Wettability 8.1. Antibacteria 8.2. Anticorrosion 8.3. Antifogging 8.4. Biomedical 8.5. Device 8.6. Liquid Transportation 8.7. Liquids Separation 8.8. Offset Printing and Liquid Reprography 8.9. Self-Cleaning 8.9.1. Superhydrophilicity/Photocatalysis-Induced Self-Cleaning 8.9.2. Superhydrophobicity-Induced Self-Cleaning 8.10. Site-Selective Functional Patterning 8.11. Water Condensation 8.12. Agricultural and Environmental Fields 9. Conclusion  360软件小助手截图20140624102606.png |
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2014-06-24 10:31:47, 11.62 M
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