Effect of local curvature on the interaction between hydrophobic surfaces

机译：局部曲率对疏水表面之间相互作用的影响

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Surface structure, including roughness and chemical heterogeneities, is known to be of importance for the surface interaction forces observed between hydrophobic and superhydrophobic surfaces. In this study, silica particles have been used to prepare structured particulated surfaces with a controlled roughness using Langmuir-Blodgett deposition or a drop coating technique. The surfaces were characterized by SEM and AFM. The AFM colloidal probe technique was employed for probing the interaction between a micro-size hydrophobic particle and hydrophobic surfaces with a sintered and silanized nano-sized silica particle monolayer. These measurements indicate that the adhesion force is increased by a decrease in particle size. Larger roughness gives larger crevices on the surface and more air/vapor accumulation but the capillary growth is impaired since the three-phase line (solid-liquid-air) has to move over a longer distance with an increase in the size of the surface features.

机译：已知包括粗糙度和化学异质性在内的表面结构对于在疏水和超疏水表面之间观察到的表面相互作用力很重要。在这项研究中，二氧化硅颗粒已被用于使用Langmuir-Blodgett沉积或滴涂技术制备具有可控粗糙度的结构化颗粒表面。通过SEM和AFM对表面进行表征。 AFM胶体探针技术用于探测微米级疏水颗粒和疏水表面与烧结和硅烷化的纳米级二氧化硅颗粒单层之间的相互作用。这些测量表明，粘附力通过减小粒度而增加。较大的粗糙度会在表面上产生更大的缝隙，并增加空气/蒸汽的积聚，但由于三相线（固-液-空气）必须移动更长的距离，并且表面特征的尺寸增加，因此毛细管的生长会受到损害。

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《NSTI-Nanotech 2010;NSTI nanotechnology conference and expo;Bio Nanotech 2010;NSTI bio nano conference and expo;Microtech 2010;Microtechnology conference and expo;WCM 2010;Workshop on compact modeling;NSTI nanotech ventures;TechConnect summit;Clean technology》|2010年|P.61-64|共4页
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P. M. Hansson; A. Swerin; E. Thormann; P. M. Claesson; J. Schoelkopf; P. A. C. Gane;
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中图分类特种结构材料;
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surface forces; AFM; capillary force; hydrophobic interaction; surface roughness;

机译：表面力原子力显微镜毛细作用力疏水相互作用表面粗糙度;
入库时间 2022-08-26 14:21:06

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2. Hydrophobic Interactions Increase Attachment of Gum Arabic- and PVP-Coated Ag Nanoparticles to Hydrophobic Surfaces [J] . Jee Eun Song, Tanapon Phenrat, Stella Marinakos, Environmental Science & Technology . 2011,第14期

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3. Hydrophobic Interactions Involved in Attachment of a Baculovirus to Hydrophobic Surfaces [J] . Deirdre A. Small, Norman F. Moore, Philip F. Entwistle Applied and Environmental Microbiology . 1986,第1期

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4. Effect of local curvature on the interaction between hydrophobic surfaces [C] . P. M. Hansson, A. Swerin, E. Thormann, NSTI Nanotechnology Conference Expo . 2010

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5. Theoretical and computational studies of water interactions with hydrophobic surfaces and macromolecules. [D] . LaBerge, Laura Jean. 2001

机译：水与疏水表面和大分子相互作用的理论和计算研究。
6. Hydrophobic Interactions Involved in Attachment of a Baculovirus to Hydrophobic Surfaces [O] . Deirdre A. Small, Norman F. Moore, Philip F. Entwistle 1986

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7. Hydrophobic Interactions Involved in Attachment of a Baculovirus to Hydrophobic Surfaces [O] . Deirdre A. Small, Norman F. Moore, Philip F. Entwistle 1986

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8. Effect of Hydrophobic Interactions on the Rates of Ionic Diffusion in Nafion Films at Electrode Surfaces [R] . Martin, C. R., Dollard, K. A. 1983

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Effect of local curvature on the interaction between hydrophobic surfaces

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