Superhydrophobic/Superhydrophilic Hybrid Copper Surface Enhanced Micro Heat Pipe by Using Laser Selective Texturing

Abstract: The heat transfer performance of Flat micro heat pipe (FMHP) is mainly determined by liquid absorption capacity of the wick. A chemical-free laser selective micro-texture technology is proposed for the fabrication of FMHP. Series of samples with different widths of the superhydrophobic-superhydrophilic spacing stripes were prepared by laser micro texturing, and their transport capacity was tested. Scanning electron microscope, three-dimensional optical profiling, and X-ray photoelectron spectroscope techniques… Show more

“…10 As of now, there are a great number of methods adopted for the fabrication of SHSs, such as chemical vapour deposition, 11 micro-arc oxidation, 12 sol-gel technique, 13 chemical etching , [14][15][16][17] solution-immersion method, 18 spin coating, 19 wetchemical grafting, 20,21 layer-by-layer self-assembly, 22,23 chemical and electrochemical deposition [24][25][26] and laser-ablation. 27,28 Physical adsorption of the constituents rendering the base material surface superhydrophobic is possible in dip-coating and spin-coating methods, but the surface fabricated may not have good mechanical stability. 29,30 The methods like chemical vapour deposition, microarc oxidation, layer-by-layer self-assembly and hydrothermal reactions are limited only to laboratory scales.…”

Fabrication of Superhydrophobic Surface on Anodized Aluminum Through a Wet-Chemical Route

“…10 As of now, there are a great number of methods adopted for the fabrication of SHSs, such as chemical vapour deposition, 11 micro-arc oxidation, 12 sol-gel technique, 13 chemical etching , [14][15][16][17] solution-immersion method, 18 spin coating, 19 wetchemical grafting, 20,21 layer-by-layer self-assembly, 22,23 chemical and electrochemical deposition [24][25][26] and laser-ablation. 27,28 Physical adsorption of the constituents rendering the base material surface superhydrophobic is possible in dip-coating and spin-coating methods, but the surface fabricated may not have good mechanical stability. 29,30 The methods like chemical vapour deposition, microarc oxidation, layer-by-layer self-assembly and hydrothermal reactions are limited only to laboratory scales.…”

Fabrication of Superhydrophobic Surface on Anodized Aluminum Through a Wet-Chemical Route

A review on applications of functional superhydrophobic surfaces prepared by laser biomimetic manufacturing

Review on the fabrication of surface functional structures for enhancing heat transfer of heat pipes