润湿
超亲水性
纤维素
材料科学
纳米技术
表面粗糙度
接触角
各向异性
表面光洁度
分子动力学
化学物理
化学工程
复合材料
化学
光学
物理
计算化学
工程类
作者
Yulei Wang,Yan Xue,Jefferson Zhe Liu,Yuxiang Wang,Yuxiang Wang,Yuxiang Wang
出处
期刊:Langmuir
[American Chemical Society]
日期:2025-01-06
卷期号:41 (1): 739-744
标识
DOI:10.1021/acs.langmuir.4c04031
摘要
Directional wetting of liquids on solid surfaces is crucial for numerous applications. However, the impact of physical modifications on near-superhydrophilic cellulose has received limited attention as it is widely considered unfeasible. In this study, we present a previously unreported and simple but effective mechanism of directional wetting induced purely by physical modifications on pristine cellulose surfaces. By using molecular dynamics simulations, we unveil that a wedge-like surface roughness drives anisotropic water spreading, contrasting with the conventional understanding of uniform wetting on strong hydrophilic cellulose surfaces. This wedge-induced directional wetting occurs without any chemical alterations, showcasing the ability of the physical topography alone to control liquid dynamics. Our findings not only provide new fundamental insights into manipulating wetting behavior on naturally hydrophilic surfaces but also highlight a transformative approach to designing cellulose-based materials with tailored fluid flow properties for diverse applications.
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