Water-repellent Hybrid Nanowire and Micro-scale Denticle Structures on Flexible Substrates of Effective Air Retention
Water-repellent Hybrid Nanowire and Micro-scale Denticle Structures on Flexible Substrates of Effective Air Retention
Water-Repellent Surfaces Consisting of Nanowires on Micropyramidal Structures
Micromachines, Free Full-Text
Recent advances of bioinspired functional materials with specific wettability: from nature and beyond nature - Nanoscale Horizons (RSC Publishing) DOI:10.1039/C8NH00223A
Micromachines, Free Full-Text
Heungsoo LEE, Doctor of Engineering, Korea Atomic Energy Research Institute (KAERI), Daejeon, kaeri
Frontiers Multi-functional approach in the design of smart surfaces to mitigate bacterial infections: a review
Water-repellent Hybrid Nanowire and Micro-scale Denticle Structures on Flexible Substrates of Effective Air Retention
Biomimetic Superhydrophobic Materials Construct from Binary Structure: A Review on Design, Properties, and Applications - Li - 2023 - Advanced Materials Interfaces - Wiley Online Library
Underwater Drag-Reducing Effect of Superhydrophobic Submarine Model
Bioinspired surfaces with wettability for antifouling application - Nanoscale (RSC Publishing) DOI:10.1039/C9NR05870B
![Micro-macro scale interaction in GENOA progressive failure analysis [1]](https://www.researchgate.net/publication/305904490/figure/fig3/AS:614291757613067@1523469976179/Micro-macro-scale-interaction-in-GENOA-progressive-failure-analysis-1.png "Micro-macro scale interaction in GENOA progressive failure analysis [1]")
