The objective of this study was to understand the role of surface texturing in microalgal cell attachment to solid surfaces.Two microalgal species,Scenedesmus dimorphus and Nannochloropsis oculata,were studied on soli...The objective of this study was to understand the role of surface texturing in microalgal cell attachment to solid surfaces.Two microalgal species,Scenedesmus dimorphus and Nannochloropsis oculata,were studied on solid carriers made of nylon and polycarbonate.Ridge,pillar and groove at micro-scale were engineered on the solid carriers.Cell response to the textured surfaces was separately described by the Cassie and Wenzel models and the contact point theory.Comparison between measured and model-predicted contact angles indicated that the wetting behavior of the textured solid carriers fell into the Wenzel state,which implied that algal cells could fully penetrate into the designed textures,but the adhesion behavior would be dependent on the size and shape of the cell.Experimental results showed that the attachment was preferred when the feature size was close to the diameter of the cell attempting to settle.Larger or smaller feature dimensions had the potential to reduce cellular attachment.The observation was found to qualitatively comply with the contact point theory.展开更多
The apparent contact angle of Cassie-Baxter state water droplets can be calculated by the existing theoretical formula, but due to the defects of the micro-structured hydrophobic surface and some inevitable tiny distu...The apparent contact angle of Cassie-Baxter state water droplets can be calculated by the existing theoretical formula, but due to the defects of the micro-structured hydrophobic surface and some inevitable tiny disturbances in the experiment, Cassie-Baxter state water droplets will appear partly in Wenzel state, that is, the mixed state water droplets. In this paper, apparent contact angles of Cassie-Baxter state and mixed state water droplets on micro-structured hydrophobic surfaces are compared. The research shows that if the projected area fraction of water-solid F in the Cassie-Baxter formula is replaced by the local projected area fraction of water-solid F′, the apparent contact angles of water droplets in both Cassie-Baxter state and the mixed state can be calculated. Further experimental results indicate that the contact state of water droplets nearby the outermost three-phase contact line plays a more important role in determining the apparent contact angle. This conclusion is significant to the understanding of the apparent contact angle and wetting property.展开更多
基金This research was financially supported by the U.S.National Science Foundation(Award#CMMI-1239078)and the startup fund of North Carolina State University.
文摘The objective of this study was to understand the role of surface texturing in microalgal cell attachment to solid surfaces.Two microalgal species,Scenedesmus dimorphus and Nannochloropsis oculata,were studied on solid carriers made of nylon and polycarbonate.Ridge,pillar and groove at micro-scale were engineered on the solid carriers.Cell response to the textured surfaces was separately described by the Cassie and Wenzel models and the contact point theory.Comparison between measured and model-predicted contact angles indicated that the wetting behavior of the textured solid carriers fell into the Wenzel state,which implied that algal cells could fully penetrate into the designed textures,but the adhesion behavior would be dependent on the size and shape of the cell.Experimental results showed that the attachment was preferred when the feature size was close to the diameter of the cell attempting to settle.Larger or smaller feature dimensions had the potential to reduce cellular attachment.The observation was found to qualitatively comply with the contact point theory.
基金supported by the National Natural Science Foundation of China (Grant Nos. 10672089 and 10872106)
文摘The apparent contact angle of Cassie-Baxter state water droplets can be calculated by the existing theoretical formula, but due to the defects of the micro-structured hydrophobic surface and some inevitable tiny disturbances in the experiment, Cassie-Baxter state water droplets will appear partly in Wenzel state, that is, the mixed state water droplets. In this paper, apparent contact angles of Cassie-Baxter state and mixed state water droplets on micro-structured hydrophobic surfaces are compared. The research shows that if the projected area fraction of water-solid F in the Cassie-Baxter formula is replaced by the local projected area fraction of water-solid F′, the apparent contact angles of water droplets in both Cassie-Baxter state and the mixed state can be calculated. Further experimental results indicate that the contact state of water droplets nearby the outermost three-phase contact line plays a more important role in determining the apparent contact angle. This conclusion is significant to the understanding of the apparent contact angle and wetting property.
