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Contact Angle01:13

Contact Angle

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When a solid is dipped inside a liquid, the liquid surface becomes curved near the contact. For some solid–liquid interfaces, the liquid is pulled up along the solid, while for others, the liquid surface is convex or depressed near the solid surface. This phenomenon can be explained using the concept of cohesive and adhesive forces.
The adhesive force is the molecular force between molecules of different materials, that is, between the molecules of the solid and the liquid. The cohesive...
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Capillarity in Fluid01:19

Capillarity in Fluid

412
Capillarity describes the movement of liquid in small spaces without external forces acting on it. The capillarity is driven by surface tension and adhesive interactions between the liquid and surrounding solid surfaces. This effect is often seen in narrow tubes, porous materials, and fine particles.
Surface tension is crucial to capillarity. It results from cohesive forces between liquid molecules at the liquid-air boundary, forming a skin that resists external forces. When the capillary tube...
412
Surface Tension of Fluid01:22

Surface Tension of Fluid

507
Surface tension is a fundamental property of fluids, occurring at the boundary between a liquid and a gas or between two immiscible liquids. This phenomenon arises from the cohesive forces between molecules at the fluid's surface, creating an effect similar to a stretched elastic membrane. Inside each fluid, molecules are equally attracted in all directions by neighboring molecules, but surface molecules experience a net inward force, resulting in surface tension.
Surface tension varies...
507
Theories of Dissolution: The Danckwerts' Model and Interfacial Barrier Model01:09

Theories of Dissolution: The Danckwerts' Model and Interfacial Barrier Model

457
Various dissolution theories provide insight into the factors that influence the dissolution rate. Danckwerts' Model suggests that turbulence, rather than a stagnant layer, characterizes the dissolution medium at the solid-liquid interface. In this model, the agitated solvent contains macroscopic packets that move to the interface via eddy currents, facilitating the absorption and delivery of the drug to the bulk solution. The regular replenishment of solvent packets maintains the...
457
Surface Tension, Capillary Action, and Viscosity02:57

Surface Tension, Capillary Action, and Viscosity

29.6K
Surface Tension
The various IMFs between identical molecules of a substance are examples of cohesive forces. The molecules within a liquid are surrounded by other molecules and are attracted equally in all directions by the cohesive forces within the liquid. However, the molecules on the surface of a liquid are attracted only by about one-half as many molecules. Because of the unbalanced molecular attractions on the surface molecules, liquids contract to form a shape that minimizes the number...
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相关实验视频

Updated: Sep 19, 2025

Nanoscale Characterization of Liquid-Solid Interfaces by Coupling Cryo-Focused Ion Beam Milling with Scanning Electron Microscopy and Spectroscopy
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Nanoscale Characterization of Liquid-Solid Interfaces by Coupling Cryo-Focused Ion Beam Milling with Scanning Electron Microscopy and Spectroscopy

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卡皮扎在固体-液体界面上的长度:从纳米尺度到微观尺度

Wentao Chen1, Gyoko Nagayama1

  • 1Department of Mechanical Engineering Kyushu Institute of Technology Kitakyushu Fukuoka 804-8550 Japan.

Small science
|June 18, 2025
PubMed
概括
此摘要是机器生成的。

这项研究揭示了卡皮扎长度 (接口热阻) 如何影响纳米到微观系统中的热传递. 观测了巨大的卡皮扎长度,定义了新的热传递模式.

关键词:
卡皮兹塔长度 卡皮兹塔长度分子动力学模拟的模拟.规模效应是规模效应的影响.固体液体接口 固体液体接口热能是运输的热能.

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相关实验视频

Last Updated: Sep 19, 2025

Nanoscale Characterization of Liquid-Solid Interfaces by Coupling Cryo-Focused Ion Beam Milling with Scanning Electron Microscopy and Spectroscopy
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Nanoscale Characterization of Liquid-Solid Interfaces by Coupling Cryo-Focused Ion Beam Milling with Scanning Electron Microscopy and Spectroscopy

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科学领域:

  • 热力学是一种热力学.
  • 材料科学 材料科学 材料科学
  • 纳米技术纳米技术

背景情况:

  • 了解固体-液体接口上的热能传输对于纳米/微尺度系统至关重要.
  • 界面热电阻 (Kapitza长度) 是关键,但它在不同尺度上的影响尚未得到充分探索.

研究的目的:

  • 为了研究卡皮扎长度在水友性和水性固体-液体接口.
  • 在恒定的热量流和温度差异下分析界面热传递.
  • 为了确定固体-液体界面热传递的模式.

主要方法:

  • 没有使用平衡分子动力学模拟.
  • 在恒定的热量流和总体温度差异条件下进行模拟.
  • 卡皮扎长度与实验数据进行了比较.

主要成果:

  • 在恒定的热量流下,卡皮扎长度保持不变.
  • 卡皮扎长度在恒定的温度差异下与液体薄膜厚度相当.
  • 在一个疏水界面上观察到1382nm的巨型卡皮扎长度;确定了三种热传递模式 (声声,过渡,导电).

结论:

  • 卡皮扎长度显著影响从纳米到微观尺度的固体-液体界面热传递.
  • 这些发现为纳米/微尺度设备的先进热管理提供了洞察力.
  • 根据卡皮兹长度建立了不同的传热系统.