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相关概念视频

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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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...
981
Step-Growth Polymerization: Overview01:03

Step-Growth Polymerization: Overview

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Step-growth or condensation polymerization is a stepwise reaction of bi or multifunctional monomers to form long-chain polymers. As all the monomers are reactive, most of the monomers are consumed at the early stages of the reaction to form small chains of reactive oligomers, which then combine to form long polymer chains in the late stages. Hence, the reaction has to proceed for a long time to achieve high molecular weight polymers.
Many natural and synthetic polymers are produced by...
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Precipitation Processes01:12

Precipitation Processes

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The experimental conditions in a gravimetric analysis should be optimized to maximize the particle size and purity of the obtained precipitate. Ideally, the concentration of the precipitating reagent should be low with effective stirring to maintain low relative supersaturation for the growth of large crystals. In homogeneous precipitation, the precipitant is slowly generated by a chemical reaction in the solution to avoid local reagent excesses. For example, urea decomposes gradually to...
604
Colloidal precipitates01:09

Colloidal precipitates

769
The high insolubility of some precipitates can result in an unfavorable relative supersaturation. This can lead to colloidal particles with a large surface-to-mass ratio, where adsorption is promoted. For instance, in the precipitation of silver chloride, silver ions are adsorbed on the surface of the colloidal particles, forming a primary layer. This layer attracts ions of opposite charge (such as nitrate ions), forming a diffuse secondary layer of adsorbed ions. This electric double layer...
769
Types of Coprecipitation01:10

Types of Coprecipitation

886
Coprecipitation is the contamination of a precipitate by otherwise soluble species and occurs via different processes. In colloidal precipitates, coprecipitation occurs via surface adsorption. For instance, barium sulfate has a primary layer of adsorbed barium ions and a secondary layer of nitrate counterions. This results in contamination of the precipitate by barium nitrate.
Sometimes, ions in a crystal lattice can undergo isomorphous replacement by inclusions of similar charge and size. For...
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Controlling the Size, Shape and Stability of Supramolecular Polymers in Water
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Controlling the Size, Shape and Stability of Supramolecular Polymers in Water

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通过增材调节的相互作用控制多元件凝聚物形态.

Jiahui Wang, Arash Nikoubashman, Young C Kim

    bioRxiv : the preprint server for biology
    |July 15, 2025
    PubMed
    概括

    小分子可以控制生物分子凝聚物的形状,这对细胞组织至关重要. 这项研究使用模拟来展示分子相互作用和数量如何精确调整凝聚物结构,如核心外或脱水形式.

    科学领域:

    • 生物物理学的生物物理.
    • 细胞生物学 细胞生物学
    • 分子动力学分子动力学

    背景情况:

    • 生物分子凝结物通过空间和时间控制来调节细胞组织和功能.
    • 小分子溶解物会影响凝结物相分离和形态,但机制尚不清楚.

    研究的目的:

    • 调查小分子如何调节双组分凝结物的形态.
    • 提供分子层面的了解,了解溶解物对凝结物结构的影响.

    主要方法:

    • 粗粒度分子动力学模拟. 粗粒度分子动力学模拟.
    • 小分子和大分子之间的相互作用强度的系统变化.
    • 第二次病毒系数的计算.

    主要成果:

    • 通过调整相互作用强度观察到的形态过渡 (例如,核心-外,脱水)
    • 证明了固体几何学和相互作用强度共同决定了形态学.
    • 表明凝结物可以在小分子添加后从可混合到微相分离状态 (核心,水) 过渡.

    结论:

    • 凝结体形态是通过相互作用和依赖于静态度的机制合理调节的.
    • 小分子溶解物为控制分子层次的细胞内组织提供了强大的工具.

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