Water confinement in hydrophobic nanopores. Pressure-induced wetting and drying

Smirnov S.; Vlassiouk I.; Takmakov P.; Rios F.

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Water confinement in hydrophobic nanopores. Pressure-induced wetting and drying

机译：将水限制在疏水性纳米孔中。压力诱导的润湿和干燥

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Wetting and drying of hydrophobic pores with diameters lower than 0.2 μm by aqueous solutions at different hydrostatic pressures is investigated by measuring the ionic conductance variation through the nanopores. The critical pressure for water intrusion into the nanopores increases with lowering the pore diameter and the surface tension of the hydrophobic modification, in agreement with the Laplace equation. Nevertheless, restoring the pressure to the atmospheric one does not result in spontaneous pore dewetting unless bubbles are left inside the pores. Such bubbles can appear at the regions of narrowing cross section and/or varying quality of the hydrophobic modification and thus can be engineered to control water expulsion.

机译：通过测量通过纳米孔的离子电导率变化，研究了水溶液在不同静水压力下对直径小于0.2μm的疏水孔的润湿和干燥。与拉普拉斯方程式一致，水进入纳米孔的临界压力随着孔径的减小和疏水改性的表面张力的增加而增加。然而，除非将气泡留在孔中，否则将压力恢复到大气压不会导致自发的孔脱湿。这样的气泡可以出现在横截面变窄和/或疏水改性的质量变化的区域，因此可以被工程化以控制水的排出。

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《ACS nano 》 |2010年第9期| 共7页
作者
Smirnov S.; Vlassiouk I.; Takmakov P.; Rios F.;
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正文语种 eng
中图分类分子物理学、原子物理学 ;
关键词
hydrophobicity; ionic conductance; nanopores; spontaneous dewetting;

机译：疏水性;离子电导;纳米孔;自发去湿;

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1. Water confinement in hydrophobic nanopores. Pressure-induced wetting and drying [J] . Smirnov S., Vlassiouk I., Takmakov P., ACS nano . 2010 ,第9期

机译：将水限制在疏水性纳米孔中。压力诱导的润湿和干燥
2. Why do pigeon feathers repel water? Hydrophobicity of pennae, Cassie-Baxter wetting hypothesis and Cassie-Wenzel capillarity-induced wetting transition [J] . Bormashenko E, Bormashenko Y, Stein T, Journal of Colloid and Interface Science . 2007 ,第1期

机译：为什么鸽子的羽毛排斥水？ Pennae的疏水性，Cassie-Baxter润湿假设和Cassie-Wenzel毛细管现象引起的润湿转变
3. Effect of alternate wetting and drying water management on rice cultivation with low emissions and low water used during wet and dry season [J] . Sriphirom Patikorn, Chidthaisong Amnat, Towprayoon Sirintornthep Journal of Cleaner Production . 2019 ,第JUNa20期

机译：干湿交替灌溉管理对旱季少排放，少用水的水稻栽培的影响
4. Te Consequences of Water Between Two Hydrophobic Surfaces in Adhesion, Friction and Wetting [C] . Adrian P. Defante, Nishad Dhoptakar, Ali Dhinojwala Technical Meeting of the Rubber Division, American Chemical Society . 2016

机译：两种疏水表面在粘附，摩擦和润湿之间的水的后果
5. Reaction of organosilicon hydrides with inorganic surfaces: An example of surface catalyzed self-assembly, and, Water porosimetry: A new technique to characterize hydrophobic porous surfaces and wetting in nano-confinement. [D] . Helmy, Roy. 2005

机译：有机硅氢化物与无机表面的反应：表面催化自组装的一个例子，以及水孔隙率法：表征疏水性多孔表面和纳米约束中润湿的新技术。
6. From Behavior of Water on Hydrophobic Graphene Surfaces to Ultra-Confinement of Water in Carbon Nanotubes [O] . Alia Mejri, Guillaume Herlem, Fabien Picaud 2021

机译：从疏水石墨烯表面的行为碳纳米管中水的超禁区
7. Water in nanopores. II. Liquid-vapour phase transition near hydrophobic surfaces [O] . Brovchenko, I., Geiger, A., Oleinikova, A. 2004

机译：纳米孔中的水。 II。疏水附近的液 - 气相变面

Water confinement in hydrophobic nanopores. Pressure-induced wetting and drying

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