Interplay between adsorption, aggregation and diffusion in confined core-softened colloids

Q3 Materials Science JCIS open Pub Date : 2021-12-01 DOI:10.1016/j.jciso.2021.100029
Murilo Sodré Marques , José Rafael Bordin
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引用次数: 3

Abstract

The behavior of colloidal particles with a hard core and a soft shell has attracted the attention for researchers in the physical-chemistry interface not only due to the large number of applications, but also owing to the unique properties of these systems, both in bulk and at interfaces. The adsorption at the two-phase boundary can provide information about the molecular arrangement. Thus, by Langevin Dynamics simulations, we have employed a recently obtained core-softened potential to analyze the relation between adsorption, structure and dynamic properties of the polymer-grafted nanoparticles near a solid repulsive surface. Two cases were considered: flat or structured walls. At low temperatures, a maximum is observed in the adsorption. It is related to a fluid to clusters transition and with a minimum in the contact layer diffusion - which is explained by the competition between the scales in the core-softened interaction. Due to the long range repulsion, the particles stay at the distance correspondent to this length scale at low densities, and overcome the repulsive barrier as the packing increases. However, by increasing the temperature, the gain in kinetic energy allows the colloids to overcome the long range repulsion barrier even at low densities. As a consequence, there is no competition and no maximum was observed in the adsorption.

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在受限的核软化胶体中吸附、聚集和扩散之间的相互作用
具有硬核和软壳的胶体颗粒的行为引起了物理化学界面研究人员的关注,这不仅是因为这些系统的大量应用,而且还因为这些系统在体积和界面上的独特性质。在两相边界处的吸附可以提供分子排列的信息。因此,通过Langevin动力学模拟,我们利用最近获得的核软化电位来分析聚合物接枝纳米颗粒在固体排斥表面附近的吸附、结构和动力学性质之间的关系。考虑了两种情况:平面或结构墙。在低温下,观察到吸附的最大值。它与流体到团簇的转变有关,并且在接触层扩散中最小——这可以用核心软化相互作用中尺度之间的竞争来解释。由于长距离排斥力,粒子在低密度下保持在与该长度尺度对应的距离上,并随着填料的增加而克服排斥力屏障。然而,通过增加温度,动能的增加使胶体即使在低密度下也能克服长距离排斥屏障。因此,在吸附中不存在竞争,也没有观察到最大值。
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来源期刊
JCIS open
JCIS open Physical and Theoretical Chemistry, Colloid and Surface Chemistry, Surfaces, Coatings and Films
CiteScore
4.10
自引率
0.00%
发文量
0
审稿时长
36 days
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