Abstract

The realm of biomimetic superhydrophobic surfaces encompasses a diverse range of applications, yet the specific biomimetic mechanisms, theories, models, and preparation methods remain shrouded in ambiguity. To address this gap, a meticulous examination of the current theories and preparation methods is imperative for guiding further biomimetic superhydrophobic research. This study, adopting a dual perspective from superhydrophobic theory and the intricate interplay between droplets and surfaces, intricately synthesizes the relevant theories and models pertaining to biomimetic superhydrophobic microstructures. Delving into the existing challenges in theoretical research and preparation methods within the field of biomimetic superhydrophobics, the research not only identifies current limitations but also lays the groundwork for future explorations. This systematic inquiry contributes not only to a nuanced understanding of existing biomimetic superhydrophobic surfaces but also provides a robust foundation for future studies and technological innovations. As the research unfolds, it propels the scientific community towards a more comprehensive grasp of biomimetic superhydrophobic phenomena, promising advancements, and applications across various scientific and technological domains.

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