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Scientists identified the plasma membrane in the 1890s and its principal chemical components (lipids and proteins) by 1915. The model for plasma membrane structure, proposed in 1935 by Hugh Davson and James Danielli, was the first model to be widely accepted in the scientific community. The model was based on the plasma membrane's "railroad track" appearance in early electron micrographs. Davson and Danielli theorized that the plasma membrane's structure resembled a sandwich...
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When a body is submerged in water, it experiences fluid pressure acting normal on its surface and distributed over its area. For better design structures, it is crucial to determine the magnitude and location of the resultant force acting on the surface. In the case of a rectangular plate of constant width submerged in water, the pressure increases with depth, resulting in a linearly varying trapezoidal pressure distribution from the upper to the lower edge of the plate.
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在雕刻的固体基板上以几何主导的流体吸附.

C Rascón1, A O Parry

  • 1Department of Mathematics, Imperial College, London, UK.

Nature
|November 9, 2000
PubMed
概括
此摘要是机器生成的。

研究人员开发了一种理论模型,证明基板形状如何显著影响液体吸附. 这一发现可以为微流体和超级排斥表面等先进技术提供量身定制的表面特性.

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科学领域:

  • 表面科学是一门科学.
  • 物理化学 物理化学
  • 材料科学是一种材料科学.

背景情况:

  • 可以实现对固体表面形状和构成的介面控制.
  • 与接近共存的气液相相互作用的结构化基板与平面系统相比,具有独特的吸附特性.
  • 现有的研究重点是粗/异质基板上的液体吸附和纳米膜特性,对几何学对气相吸附的影响的探索有限.

研究的目的:

  • 研究基板几何学对气相流体吸附的基本影响.
  • 提出一个理论模型,说明表面形状对吸附异热体的影响.
  • 通过统一的理论框架连接湿现象和毛细血管凝结.

主要方法:

  • 开发一个简单的理论模型.
  • 流体界面现象的分析.
  • 在几何变化的基板上模拟和理论探索吸附异热体.

主要成果:

  • 基质的形状对液体吸附异热体有很大的影响.
  • 该模型成功地弥合了湿和毛细血管凝结现象.
  • 通过塑造表面几何形状,证明了量身定制吸附性能的潜力.

结论:

  • 表面几何是流体吸附的关键因素.
  • 该理论模型为流体-基板相互作用提供了新的视角.
  • 塑造表面形状为技术应用提供了一条设计特定吸附行为的途径.