The Barthlott effect

Laurent Vonna
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Abstract

Abstract Abstract In 1997, Barthlott and Neinhuis published a groundbreaking article entitled "Purity of the sacred lotus, or escape from contamination in biological surfaces" that caused a true paradigm shift in surface science. In this article, they explained the water-repellent and self-cleaning properties of plants, attributing the superhydrophobicity to nano- and micrometric wax textures on the surface of the leaves. This became known as the "Lotus Effect". In the late 1980s, Barthlott already demonstrated the microtexture of plant surfaces and its effect on wetting. However, this knowledge remained confined to botany until the 1997 article popularized it. The dissemination of this knowledge to the materials science community led to the development of countless synthetic superhydrophobic surfaces and a better understanding of wetting mechanisms. The story of this discovery and its consequences demonstrates the relevance of atypical approaches and emphasizes the urgency of respecting biodiversity.
巴特洛特效应
1997年,Barthlott和Neinhuis发表了一篇开创性的文章,题为“神圣莲花的纯净,或从生物表面的污染中逃脱”,引起了表面科学的真正范式转变。在这篇文章中,他们解释了植物的疏水性和自清洁特性,将这种超疏水性归因于叶子表面的纳米和微米蜡质。这就是著名的“莲花效应”。在20世纪80年代末,Barthlott已经证明了植物表面的微纹理及其对润湿的影响。然而,直到1997年的那篇文章普及它之前,这种知识一直局限于植物学。这些知识在材料科学界的传播导致了无数合成超疏水表面的发展和对润湿机制的更好理解。这一发现的故事及其后果证明了非典型方法的相关性,并强调了尊重生物多样性的紧迫性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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