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相关概念视频

Factors Affecting Dissolution: Particle Size and Effective Surface Area01:23

Factors Affecting Dissolution: Particle Size and Effective Surface Area

1.6K
Dissolution kinetics, an essential aspect of oral drug delivery, is significantly influenced by the drug's particle size. According to the Noyes-Whitney dissolution model, the dissolution rate correlates directly with the drug's surface area. The larger the surface area, the higher the drug's solubility in water, leading to a faster drug dissolution rate. Reducing particle size increases the effective surface area, enhancing the dissolution process. Micronization and nanosizing are...
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Theories of Dissolution: The Danckwerts' Model and Interfacial Barrier Model01:09

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

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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...
764
Theories of Dissolution: Diffusion Layer Model01:15

Theories of Dissolution: Diffusion Layer Model

1.6K
Dissolution, the process by which drug particles dissolve in a solvent, is explained by the diffusion layer model, a theoretical framework that simulates the absorption of oral drugs and allows us to analyze experimental data.
This process starts with a thin layer, saturated with the drug, forming at the interface between the solid and liquid. The solute then diffuses from this layer into the main solution. The Noyes-Whitney equation suggests that the rate of dissolution relies on the diffusion...
1.6K
Factors Affecting Dissolution: Drug pKa, Lipophilicity and GI pH01:21

Factors Affecting Dissolution: Drug pKa, Lipophilicity and GI pH

3.0K
Drug absorption within the gastrointestinal (GI) tract is a complex process influenced by several critical factors, including the site pH, the drug's dissociation constant (pKa), and the drug's lipophilicity. The GI tract exhibits a pH gradient, with an acidic environment in the stomach and a more alkaline environment in the small intestine. This pH variation directly affects the ionization state of drugs.
A drug's pKa and the pH of the gastrointestinal (GI) tract play crucial roles...
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Factors Affecting Solubility04:01

Factors Affecting Solubility

36.6K
Compared with pure water, the solubility of an ionic compound is less in aqueous solutions containing a common ion (one also produced by dissolution of the ionic compound). This is an example of a phenomenon known as the common ion effect, which is a consequence of the law of mass action that may be explained using Le Chȃtelier’s principle. Consider the dissolution of silver iodide:
36.6K
Common Ion Effect03:24

Common Ion Effect

45.8K
Compared with pure water, the solubility of an ionic compound is less in aqueous solutions containing a common ion (one also produced by dissolution of the ionic compound). This is an example of a phenomenon known as the common ion effect, which is a consequence of the law of mass action that may be explained using Le Châtelier’s principle. Consider the dissolution of silver iodide:
45.8K

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Surface Properties of Synthesized Nanoporous Carbon and Silica Matrices
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MgO-水界面:结构和表面溶解取决于流量和pH值.

Moritz Zelenka1,2, Ellen H G Backus1,2

  • 1University of Vienna, Faculty of Chemistry, Institute of Physical Chemistry, Währinger Straße 42, 1090 Vienna, Austria. ellen.backus@univie.ac.at.

Physical chemistry chemical physics : PCCP
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概括
此摘要是机器生成的。

与静态水相比,流水显著改变氧化 (MgO) 的表面电荷和水结构. 在静态溶液中溶解MgO会中和表面电荷,影响接口特性.

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科学领域:

  • 表面化学 表面化学
  • 材料科学 材料科学 材料科学
  • 物理化学 物理化学

背景情况:

  • 氧化 (MgO) 在工业和自然环境中普遍存在,经常与水环境相互作用.
  • 了解MgO-水接口对于各种应用和地化学过程至关重要.

研究的目的:

  • 为了研究水流 (流动与静态) 对MgO100表面的界面结构和溶解的影响.
  • 阐明溶液pH和溶解在调节表面电荷和水方向方面的作用.

主要方法:

  • 总频率生成 (SFG) 谱学被用来探测接口结构和水的方向.
  • 实验使用流动和静态水溶液进行,pH范围为3至11.

主要成果:

  • 流动的酸性溶液增加了MgO表面电荷和水分子的方向.
  • 静态溶液由于MgO溶解而产生近乎中性的MgO表面电荷,不论pH值如何.
  • 确定了MgO溶解对H+度的反应顺序大约为0.5.

结论:

  • 水的状态 (流动或静态) 极大地影响MgO100表面的界面结构和充电行为.
  • 在静态条件下,MgO溶解在中和表面电荷方面发挥着关键作用.
  • 在其他可溶性固体-液体接口上也可能发生类似的现象.