Energy Dissipation due to Capillary Interactions: Hydrophobicity Maps in Force Microscopy

E. Sahagun; P. Garcia-Mochales; G.M. Sacha; J. J. Saenz

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Energy Dissipation due to Capillary Interactions: Hydrophobicity Maps in Force Microscopy

机译：由于毛细管相互作用而耗能：力显微镜中的疏水性图

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The energy dissipation process involved in the formation and rupture of a nanometer-sized capillary-condensed water bridge is theoretically analyzed. With the help of numerical simulations, the dissipation contrast in amplitude-modulated atomic force microscopy is shown to be a result of a nontrivial interplay between the energy dissipated in each rupture process and the bistable motion of the cantilever. In the repulsive high amplitude regime, the dissipated power is a function of the tip and sample contact angles being independent of the elastic properties of the system. Working in this regime, energy dissipation images in air can be regarded as surface hydrophobicity maps.

机译：从理论上分析了纳米级毛细管冷凝水桥的形成和破裂过程中的能量耗散过程。在数值模拟的帮助下，调幅原子力显微镜的耗散对比被证明是在每个破裂过程中耗散的能量与悬臂的双稳态运动之间非平凡相互作用的结果。在斥力高振幅状态下，耗散功率是尖端和样品接触角的函数，而与系统的弹性无关。在这种情况下，空气中的能量消散图像可被视为表面疏水性图。

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来源
《Physical review letters 》 |2007年第17期| p.176106.1-176106.4| 共4页
作者
E. Sahagun; P. Garcia-Mochales; G.M. Sacha; J. J. Saenz;
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作者单位

Departamento de Fisica de la Materia Condensada and Instituto 'Nicolas Cabrera,' Universidad Autonoma de Madrid, E-28049 Madrid, Spain;

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原文格式 PDF
正文语种 eng
中图分类物理学 ;
关键词
atomic force microscopy (AFM); atomic force microscopes; scanning tunneling and atomic force microscopy;

机译：原子力显微镜（AFM）;原子力显微镜;扫描隧道和原子力显微镜;

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1. Direct measurement of hydrophobic particle-bubble interactions in aqueous solutions by atomic force microscopy: Effect of particle hydrophobicity [J] . Ishida N Colloids and Surfaces, A. Physicochemical and Engineering Aspects . 2007 ,第3期

机译：通过原子力显微镜直接测量水溶液中的疏水性颗粒-气泡相互作用：颗粒疏水性的影响
2. Examination of butadiene/styrene-co-butadiene rubber blends by tapping mode atomic force microscopy. Importance of the indentation depth and reduced tip-sample energy dissipation in tapping mode atomic force microscopy study of elastomers [J] . Bar G., Brandsch R., Delineau L., Langmuir: The ACS Journal of Surfaces and Colloids . 2000 ,第13期

机译：通过敲击模式原子力显微镜检查丁二烯/苯乙烯-共丁二烯橡胶共混物。弹性体的攻丝模式原子力显微镜研究压痕深度和降低尖端样品能量耗散的重要性
3. Basins of attraction of tapping mode atomic force microscopy with capillary force interactions [J] . Nastaran Hashemi, Reza Montazami Applied Physicsletters . 2009 ,第25期

机译：毛细作用力相互作用的振实模式原子力显微镜的吸引盆地
4. Exploring the basins of attraction of tapping mode atomic force microscopy with capillary force interactions [C] . Nastaran Hashemi, Mark Paul, Harry Dankowicz International Mechanical Engineering Congress and Exposition 2007 . 2008

机译：利用毛细力相互作用探索攻丝模式原子力显微镜的吸引力盆地
5. Interactions of extracellular polymeric substances with mineral surfaces: Molecular modeling, Fourier transform infrared, atomic force microscopy, and quartz crystal microbalance with dissipation. [D] . Kwon, Kideok. 2006

机译：细胞外聚合物与矿物质表面的相互作用：分子建模，傅立叶变换红外光谱，原子力显微镜和具有耗散特性的石英晶体微量天平。
6. Energy dissipation in multifrequency atomic force microscopy [O] . Valentina Pukhova, Francesco Banfi, Gabriele Ferrini 2014

机译：多频原子力显微镜中的能量耗散
7. Magnetic resonance force microscopy : interaction forces and channels of energy dissipation [O] . Moresi Giorgio 2005

机译：磁共振力显微镜：能量耗散的相互作用力和通道

Energy Dissipation due to Capillary Interactions: Hydrophobicity Maps in Force Microscopy

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