表面粗糙度对粒子网络界面特性的影响

IF 2.5 Q3 CHEMISTRY, PHYSICAL
E. L. Correia, Nick Brown, D. Papavassiliou, Sepideh Razavi
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引用次数: 0

摘要

胶体粒子在流体界面附近的行为引起了科学界的极大兴趣,因为粒子可以最大限度地减小两相流体之间的接触面积,从而稳定界面系统。本研究探讨了表面粗糙度对空气-水界面颗粒单层特性的影响,重点是水动力直径相似的胶体二氧化硅颗粒和气相二氧化硅颗粒。这项研究将低表面积(LSA)和中表面积(MSA)气相二氧化硅颗粒与球形胶体二氧化硅颗粒(直径为 250 nm)进行了比较。利用朗缪尔槽对界面颗粒网络进行压缩和扩展。表面压力等温线分析表明,与球形颗粒相比,气相二氧化硅颗粒单层在较低的颗粒表面覆盖率下形成网络。与气相二氧化硅网络相比,球形颗粒单层显示出更高的表观表面弹性,表明其对施加的压缩具有更大的抵抗力。此外,气相法二氧化硅颗粒形成的单层即使在连续压缩和膨胀后也会表现出滞后性,这是由于颗粒间不可逆转的连锁和多层聚集体的形成。这些发现深入揭示了表面粗糙度对流体界面颗粒单层行为的影响,为设计和优化乳液和泡沫稳定机制提供了宝贵的信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of Surface Roughness on Interfacial Properties of Particle Networks
The behavior of colloidal particles near fluid interfaces has attracted significant scientific interest, as particles minimize the contact area between the two fluid phases, stabilizing interfacial systems. This study explores the influence of surface roughness on the properties of particle monolayers at the air–water interface, focusing on colloidal silica particles and fumed silica particles of similar hydrodynamic diameter. This research involves comparing low-surface-area (LSA) and medium-surface-area (MSA) fumed silica particles with spherical colloidal silica particles (250 nm in diameter). Utilizing a Langmuir trough, the interfacial particle networks are compressed and expanded. Analysis of surface pressure isotherms reveals that fumed silica particle monolayers form networks at a lower particle surface coverage compared to spherical particles. The spherical particle monolayer exhibits a higher apparent surface elasticity, indicating greater resistance to the applied compression compared to fumed silica networks. Additionally, monolayers formed by fumed silica particles display hysteresis even after successive compressions and expansions due to irreversible particle interlocking and the formation of multilayered aggregates. These findings provide insights into the impact of surface roughness on the behavior of particle monolayers at fluid interfaces, offering valuable information for designing and optimizing mechanisms involved in emulsion and foam stabilization.
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来源期刊
Colloids and Interfaces
Colloids and Interfaces CHEMISTRY, PHYSICAL-
CiteScore
3.90
自引率
4.20%
发文量
64
审稿时长
10 weeks
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