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聚苯乙烯粘合表面的润湿性转变:花瓣效应。

Wetting transitions in adhesive surfaces of polystyrene: The petal effect.

作者信息

Jonguitud-Flores Silvia, Yáñez-Soto Bernardo, Pérez Elías, Sánchez-Balderas G

机构信息

Instituto de Física, Universidad Autónoma de San Luis Potosí, Álvaro Obregón 64, 78000 San Luis Potosí, Mexico.

Instituto de Física, Universidad Autónoma de San Luis Potosí, Álvaro Obregón 64, 78000 San Luis Potosí, Mexico; Facultad de Medicina, Universidad Autónoma de Sinaloa, Culiacán, Sinaloa, Mexico.

出版信息

J Colloid Interface Sci. 2024 Nov 15;674:178-185. doi: 10.1016/j.jcis.2024.06.121. Epub 2024 Jun 20.

DOI:10.1016/j.jcis.2024.06.121
PMID:38925063
Abstract

HYPOTHESIS

The petal effect is a well-known natural phenomenon in surface science and has served as inspiration for the creation of several materials with superhydrophobic qualities and high adhesion. As surface roughness has a crucial role in these properties, being able to modulate it could help us design materials at will. Capillary penetration frustrates diffusion and promotes large contact angles as well as high adhesion.

EXPERIMENTS

Polystyrene surfaces were created using the spin-coating technique. By varying the polymer concentration, the surface roughness was modified. To determine the roughness parameters, atomic force microscopy was used. We recorded advancing and receding contact angles using water and glycerol as test liquids to study contact angle hysteresis, the work of adhesion and the apparent surface energy, which was determined with the Chibowski and Perea-Carpio method. For the purpose of elucidating the wetting states, captive bubble experiments were conducted.

FINDINGS

Using an easy method, we create polystyrene surfaces with both superhydrophobicity and strong adhesion, where the roughness area factor regulates wetting transitions from Cassie-Baxter to Wenzel. The receding contact angle suggests capillary penetration, which we demonstrate by captive bubble experiments. In addition, a link was found between the surface roughness and apparent surface energy.

摘要

假设

花瓣效应是表面科学中一种广为人知的自然现象,它为创造几种具有超疏水特性和高附着力的材料提供了灵感。由于表面粗糙度在这些特性中起着关键作用,能够对其进行调节有助于我们随意设计材料。毛细管渗透会阻碍扩散,并促进形成大接触角以及高附着力。

实验

采用旋涂技术制备聚苯乙烯表面。通过改变聚合物浓度来改变表面粗糙度。使用原子力显微镜确定粗糙度参数。我们使用水和甘油作为测试液体记录前进和后退接触角,以研究接触角滞后、附着力功和表观表面能,表观表面能是用奇博夫斯基和佩雷亚 - 卡尔皮奥方法测定的。为了阐明润湿状态,进行了俘获气泡实验。

发现

我们使用一种简便方法制备了具有超疏水性和强附着力的聚苯乙烯表面,其中粗糙度面积因子调节从卡西 - 巴克斯特状态到温泽尔状态的润湿转变。后退接触角表明存在毛细管渗透,我们通过俘获气泡实验证明了这一点。此外,还发现了表面粗糙度与表观表面能之间的联系。

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