Self-cleaning superhydrophobic surfaces with underwater superaerophobicity

Engineering & Materials Science

• Superhydrophobicity 100%
• Cleaning 69%
• Surface roughness 37%
• Polymers 32%
• Self cleaning surfaces 27%
• Femtosecond lasers 23%
• Lasers 22%
• Chemical modification 22%
• Cell adhesion 22%
• Raman spectroscopy 19%
• Laser pulses 19%
• Atomic force microscopy 18%
• Contact angle 16%
• Lithography 16%
• Microfluidics 15%
• Anisotropy 15%
• Wetting 15%
• Energy conversion 15%
• Hysteresis 14%
• Semiconductor materials 13%
• Energy storage 13%
• Fabrication 11%
• Oils 9%
• Metals 9%
• Air 8%
• Water 8%
• Costs 5%

Chemical Compounds

• Surface 23%
• Change of Modification 20%
• Work of Adhesion 15%
• Bubble 11%
• Hysteresis 10%
• Anisotropy 10%
• Energy Storage 9%
• Atomic Force Microscopy 8%
• Semiconductor 8%
• Green 7%
• Application 6%
• Length 6%
• Modification 5%
• Metal 4%