Advances in bioinspired superhydrophobic surface materials: A review on preparation, characterization and applications - ScienceDirect
Efficient fabrication of ternary coupling biomimetic superhydrophobic surfaces with superior performance of anti-wetting and self-cleaning by a simple two-step method - ScienceDirect
Lotus Effect in Nanotechnology
Lotus effect in wetting and self-cleaning - ScienceDirect
The Lotus Effect - ProPERLA®
Self-cleaning textiles using the Lotus Effect - ScienceDirect
Fabrication of superhydrophobic self-cleaning manganese dioxide coatings on Mg alloys inspired by lotus flower - ScienceDirect
Self-cleaning textiles using the Lotus Effect - ScienceDirect
Following the Natures Lead: Lotus Effect Self-Cleaning - Nanografi Nano Technology
Efficient fabrication of ternary coupling biomimetic superhydrophobic surfaces with superior performance of anti-wetting and self-cleaning by a simple two-step method - ScienceDirect
A plant with self-cleaning leaves? - Michigan Metrology
A critical review on robust self-cleaning properties of lotus leaf - Soft Matter (RSC Publishing) DOI:10.1039/D2SM01521H
Solvent-free synthesis of superhydrophobic materials with self-regenerative and drag reduction properties - ScienceDirect
Lotus effect in wetting and self-cleaning - ScienceDirect
Following the Natures Lead: Lotus Effect Self-Cleaning - Nanografi Nano Technology