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Phase Transitions: Vaporization and Condensation02:39

Phase Transitions: Vaporization and Condensation

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The physical form of a substance changes on changing its temperature. For example, raising the temperature of a liquid causes the liquid to vaporize (convert into vapor). The process is called vaporization—a surface phenomenon. Vaporization occurs when the thermal motion of the molecules overcome the intermolecular forces, and the molecules (at the surface) escape into the gaseous state. When a liquid vaporizes in a closed container, gas molecules cannot escape. As these gas phase...
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Surface Tension of Fluid01:22

Surface Tension of Fluid

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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...
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Precipitation of Ions03:11

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Predicting Precipitation
The equation that describes the equilibrium between solid calcium carbonate and its solvated ions is:
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Precipitate Formation and Particle Size Control01:16

Precipitate Formation and Particle Size Control

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In precipitation gravimetry, the precipitating agent should react specifically or selectively with the analyte. While a specific reagent reacts with the analyte alone, a selective reagent can react with a limited number of chemical species.
The obtained precipitate should be either a pure substance of known composition or easily converted to one by a simple process, such as ignition or drying. In addition, the precipitate should be insoluble and easily filterable. In general, filterability...
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Boundary Layer Characteristics01:18

Boundary Layer Characteristics

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When a fluid encounters a solid surface, a boundary layer forms due to the interaction between the fluid's motion and the stationary surface. This phenomenon is characterized by a thin region adjacent to the surface where viscous forces dominate, influencing the fluid's velocity profile. The development of the boundary layer begins at the leading edge of the surface and evolves as the fluid moves downstream.As the fluid flows over the surface, friction between the fluid and the wall slows down...
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Surface Tension and Surface Energy01:16

Surface Tension and Surface Energy

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When a paint brush is immersed in water, the bristles wave freely inside the water. When it is taken out, the bristles stick together. The reason behind this effect is surface tension.
Consider a beaker filled with liquid. The bulk molecules in the liquid experience equal attractive forces on all sides with the surrounding molecules. However, the surface molecules experience a net attractive force downward due to the bulk molecules. The surface of the liquid behaves like a stretched membrane,...
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相关实验视频

Updated: Jun 16, 2025

Taking Advantage of Reduced Droplet-surface Interaction to Optimize Transport of Bioanalytes in Digital Microfluidics
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露水滴元表面和基于凝结和蒸发的动态控制.

Runqi Jia1, Yongxin Jing1, Hongchen Chu2

  • 1National Laboratory of Solid State Microstructures, School of Physics and Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing, 210093, China.

Advanced science (Weinheim, Baden-Wurttemberg, Germany)
|August 21, 2024
PubMed
概括

研究人员使用一系列露水滴创建了一个新的电磁超表面. 这种通过凝结和蒸发控制的动态表面显示了可调节的微波吸收和散射应用的潜力.

关键词:
露水滴凝结的凝结方式可调节的地表变换器.超宽带吸收超宽带的吸收.

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科学领域:

  • 电磁学 电磁学 电磁学 电磁学
  • 材料科学 材料科学 材料科学
  • 表面科学是一门学科.

背景情况:

  • 露滴是表面上自然存在的水滴,具有独特的光学和物理特性.
  • 电磁超表面可以对电磁波提供先进的控制,但往往缺乏动态调能力.

研究的目的:

  • 为了展示一个新的,人造露水滴阵列作为一个动态可控的电磁超表面.
  • 探索使用凝结和蒸发来调节超表面的电磁性质.

主要方法:

  • 用有图案的水友性和疏水性涂层制造表面,以引导水滴形成.
  • 利用相对湿度和温度的变化来控制露水滴的凝结和蒸发.
  • 描述露水滴转移表面的电磁反应 (吸收和散射).

主要成果:

  • 成功地在一个量身定制的表面上创建了一系列随意形状和排列的露水滴.
  • 通过受控的冷凝和蒸发,证明了露水滴超表面特性的动态调节.
  • 展示了两个不同的功能示例:可调节的微波吸收和散射.

结论:

  • 已经建立了一个使用露水滴构建功能电磁设备的新原则.
  • 基于环境凝结和蒸发的动态控制机制成功实施.
  • 这种方法为可调节电磁器件的新型应用提供了有前途的途径.