泊泽维尔流对活性囊泡动力学的影响

IF 1.6 4区材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Soft Materials Pub Date : 2021-06-30 DOI:10.1080/1539445X.2021.1937222

Prabha Chuphal, S. Sahoo, S. Thakur

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引用次数: 3

摘要

外部流动对活性可变形颗粒动力学的影响，由于其在医疗和工业领域的突出应用，需要详细了解所涉及的机制。在这方面，我们使用混合粗粒度计算方法研究了外部泊泽维尔流对活动可变形囊泡运动的影响。囊泡的活性是通过溶剂在其表面的浓度梯度来维持的。这种可变形的活动物体，当暴露于泊泽维尔流时，表现出一系列动力学模式，这些模式受囊泡大小的极大影响。对于较小的外流强度，我们观察到不同囊泡大小的推进力和外流之间的竞争。在大泡的情况下，发现了一个有趣的槽踏运动，以增强流动强度。通过适当的物理量化，我们解释了影响囊泡平移和旋转运动的关键因素是其表面流动性和对外部流动的阻力。

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Effect of Poiseuille flow on the dynamics of active vesicle

ABSTRACT The influence of an external flow on the dynamics of active deformable particles demands a detailed understanding of the involved mechanism due to their prominent applications in medical and industrial fields. In this regard, we have investigated the effect of an external Poiseuille flow on the motion of an active deformable vesicle using a hybrid coarse-grained computational method. The activity of the vesicle is maintained through the concentration gradient of the solvent across its surface. Such a deformable active object, when exposed to the Poiseuille flow, exhibits a range of dynamical modes, which are greatly influenced by the size of the vesicle. For smaller external flow strength, we have observed the competition between propulsion force and external flow for various vesicle sizes. An interesting tank-treading motion is found for stronger flow strength in the case of a large vesicle. With appropriate physical quantification, we have explained that the key factors affecting the translational and rotational motions of the vesicle are its surface fluidity and its resistance to the external flow.

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来源期刊

Soft Materials 工程技术-材料科学：综合

CiteScore

2.90

自引率

0.00%

发文量

审稿时长

2.2 months

期刊介绍： Providing a common forum for all soft matter scientists, Soft Materials covers theory, simulation, and experimental research in this rapidly expanding and interdisciplinary field. As soft materials are often at the heart of modern technologies, soft matter science has implications and applications in many areas ranging from biology to engineering. Unlike many journals which focus primarily on individual classes of materials or particular applications, Soft Materials draw on all physical, chemical, materials science, and biological aspects of soft matter. Featured topics include polymers, biomacromolecules, colloids, membranes, Langmuir-Blodgett films, liquid crystals, granular matter, soft interfaces, complex fluids, surfactants, gels, nanomaterials, self-organization, supramolecular science, molecular recognition, soft glasses, amphiphiles, foams, and active matter. Truly international in scope, Soft Materials contains original research, invited reviews, in-depth technical tutorials, and book reviews.