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Polymer Classification: Crystallinity01:21

Polymer Classification: Crystallinity

Unlike ionic or small covalent molecules, polymers do not form crystalline solids due to the diffusion limitations of their long-chain structures. However, polymers contain microscopic crystalline domains separated by amorphous domains.
Crystalline domains are the regions where polymer chains are aligned in an orderly manner and held together in proximity by intermolecular forces. For example, chains in the crystalline domains of polyethylene and nylon are bound together by van der Waals...
Liquid–Solid Solutions01:29

Liquid–Solid Solutions

The process of a solid dissolving in a liquid to form a solution is governed by the solubility limit, which is the maximum amount of the solid substance, or solute, that can be dissolved in a specific volume of the liquid or solvent. As the solute dissolves, it reaches a point where no more solute can be dissolved at a given temperature - this is known as the saturation point. However, if further solute is added and it manages to dissolve, the solution becomes supersaturated. Supersaturated...
Crystal Growth: Principles of Crystallization01:25

Crystal Growth: Principles of Crystallization

Crystallization is a phase transformation process in which crystals are precipitated from a supersaturated solution or formed from other sources. During crystallization, atoms or molecules arrange themselves into a well-defined, rigid crystal lattice to minimize energy.
Initiating crystallization involves manipulating the concentration of the solute and the temperature of the solution. Since crystal growth occurs when the ratio of concentration and solubility of the solute in the solvent – the...
Nonideal Two-Component Liquid Solutions01:29

Nonideal Two-Component Liquid Solutions

Nonideal liquid solutions, also known as real solutions, do not strictly follow Raoult's law. Raoult's law is a rule of thumb in physical chemistry. However, not all mixtures adhere to this law due to varying molecular interactions. For example, in an acetone/chloroform solution, the individual vapor pressures of the components are lower than expected, resulting in a total vapor pressure below that predicted by Raoult's law, causing a negative deviation.On the other hand, in an ethanol/water...

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相关实验视频

Updated: May 22, 2026

Novel Techniques for Observing Structural Dynamics of Photoresponsive Liquid Crystals
10:35

Novel Techniques for Observing Structural Dynamics of Photoresponsive Liquid Crystals

Published on: May 29, 2018

光感应的液晶晶性是指光感应的液晶性.

Tamas Kosa1, Ludmila Sukhomlinova, Linli Su

  • 1Alpha Micron Inc., Kent, Ohio 44240, USA. tamas@alphamicron.com

Nature
|May 19, 2012
PubMed
概括
此摘要是机器生成的。

新的纳夫托皮兰液晶表现出光诱导的顺序增加,从清晰状态过渡到吸收状态. 这一发现对光学,光子学和太阳能应用具有重要意义.

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Orientational Transition in a Liquid Crystal Triggered by the Thermodynamic Growth of Interfacial Wetting Sheets
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Orientational Transition in a Liquid Crystal Triggered by the Thermodynamic Growth of Interfacial Wetting Sheets

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High-Contrast and Fast Photorheological Switching of a Twist-Bend Nematic Liquid Crystal
06:24

High-Contrast and Fast Photorheological Switching of a Twist-Bend Nematic Liquid Crystal

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相关实验视频

Last Updated: May 22, 2026

Novel Techniques for Observing Structural Dynamics of Photoresponsive Liquid Crystals
10:35

Novel Techniques for Observing Structural Dynamics of Photoresponsive Liquid Crystals

Published on: May 29, 2018

Orientational Transition in a Liquid Crystal Triggered by the Thermodynamic Growth of Interfacial Wetting Sheets
06:26

Orientational Transition in a Liquid Crystal Triggered by the Thermodynamic Growth of Interfacial Wetting Sheets

Published on: May 15, 2017

High-Contrast and Fast Photorheological Switching of a Twist-Bend Nematic Liquid Crystal
06:24

High-Contrast and Fast Photorheological Switching of a Twist-Bend Nematic Liquid Crystal

Published on: October 31, 2019

科学领域:

  • 材料科学 材料科学 材料科学
  • 物理化学 物理化学
  • 光学是什么?光学是什么?

背景情况:

  • 液晶是根据它们对热 (热热) 或溶剂 (热热) 等刺激的反应来分类的.
  • 光响应性液晶在暴露于光线时通常会按顺序减少,经历同热相转换.
  • 之前的研究观察到光引起的顺序下降,在特定条件下,顺序增加的罕见例外.

研究的目的:

  • 报告一种基于纳夫托皮兰的新型液晶.
  • 为了证明这些材料中的光学诱导的阶段过渡的增加顺序.
  • 探索这些增加顺序的光响应液晶的潜在应用.

主要方法:

  • 纳夫托皮兰分子的合成和功能化.
  • 研究光学诱导的形状变化及其对分子结构的影响.
  • 在暴露于光线时,相位转换和顺序参数变化的表征.

主要成果:

  • 纳夫托皮兰材料表现出光诱导的形状变化,导致阶段过渡的增加顺序.
  • 功能化纳夫托皮兰分子的开放形式显示了一个大顺序参数.
  • 在暴露于光线时观察到一个从清晰到吸收的双色球状态过渡.

结论:

  • 这项研究引入了基于纳夫托皮兰的液晶,能够产生光诱导的顺序增长.
  • 观察到的现象在光学,光子学,激光,显示器和太阳能采集等领域有很大的应用潜力.
  • 大幅的光学诱导二重化对光色太阳镜等眼科应用具有前景.