动态自组装顺磁胶体簇的粘弹性

Viscoelasticity of dynamically self-assembled paramagnetic colloidal clusters.

作者信息

Tierno Pietro, Muruganathan Ramanathan, Fischer Thomas M

机构信息

Department of Chemistry and Biochemistry, Florida State University, Tallahassee, Florida 32306, USA.

出版信息

Phys Rev Lett. 2007 Jan 12;98(2):028301. doi: 10.1103/PhysRevLett.98.028301. Epub 2007 Jan 9.

DOI:10.1103/PhysRevLett.98.028301

PMID:17358653

Abstract

Paramagnetic particles in a liquid above a solid dynamically self-assemble into two-dimensional (2D) viscoelastic clusters in a processing magnetic field if the precession angle exceeds the magic angle. Hexagonal clusters rotate with a frequency proportional to the precession frequency of the magnetic field. The rotation is explained by viscoelastic shear waves excited in the clusters that can be visualized slightly above the magic angle. The cluster rotation and the visualization of viscoelastic modes are independent techniques to probe the rheological properties of the cluster. We find agreement between both techniques when determining the 2D cluster viscosity eta(c) approximately 10(-11) N s/m.

摘要

如果进动角超过魔角，液体中高于固体的顺磁性粒子在处理磁场中会动态自组装成二维（2D）粘弹性簇。六边形簇以与磁场进动频率成比例的频率旋转。这种旋转是由簇中激发的粘弹性剪切波解释的，在略高于魔角的情况下可以可视化。簇旋转和粘弹性模式的可视化是探测簇流变特性的独立技术。我们发现在确定二维簇粘度η(c)约为10^(-11) N s/m时，这两种技术之间存在一致性。

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动态自组装顺磁胶体簇的粘弹性

Viscoelasticity of dynamically self-assembled paramagnetic colloidal clusters.

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