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W4296793552 abstract "Abstract Scale formation is a longstanding and unresolved problem in a number of fields, including power production, petroleum exploration, thermal desalination, and construction. Herein, a high‐temperature scale‐resistant slippery lubricant‐induced surface (HTS‐SLIPS) is developed by one‐step electrodeposition and lubricant infusion. The fractal cauliflower‐like morphology with lubricant oil is conducive to forming an ultralow contact angle hysteresis of ≈1°. The 10‐d real‐world boiling trial indicates that by replacing the uncoated surface with HTS‐SLIPS, the reduction in scale mass is greater than 200% because of the low surface free energy (4.3 mJ m −2 ) and outstanding smoothness ( R a = 41 ± 8 nm) of HTS‐SLIPS. Thanks to the scale retardation, the bubble departure frequency of HTS‐SLIPS is eightfold higher than that of uncoated surfaces, signifying superior heat transfer efficiency. In these demonstrations, HTS‐SLIPS coated spiral tube exhibits better flowability and lower pressure drop than the uncoated one. In addition, favorable compatibility between HTS‐SLIPS and mechanical vibration is experimentally verified to strengthen the descaling of SLIPS synergistically. It is anticipated that the simple and scalable coating fabrication approach will be applicable in numerous industrial high‐temperature processes where scale formation is encountered." @default.
W4296793552 created "2022-09-24" @default.
W4296793552 creator A5002749607 @default.
W4296793552 creator A5005705722 @default.
W4296793552 creator A5077399362 @default.
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W4296793552 date "2022-09-23" @default.
W4296793552 modified "2023-10-15" @default.
W4296793552 title "Nature‐Inspired High Temperature Scale‐Resistant Slippery Lubricant‐Induced Porous Surfaces (HTS‐SLIPS)" @default.
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W4296793552 doi "https://doi.org/10.1002/smll.202203615" @default.
W4296793552 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36148852" @default.
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