胶体聚集过程中凝胶化的限制

Limits to gelation in colloidal aggregation.

作者信息

Manley S, Cipelletti L, Trappe V, Bailey A E, Christianson R J, Gasser U, Prasad V, Segre P N, Doherty M P, Sankaran S, Jankovsky A L, Shiley B, Bowen J, Eggers J, Kurta C, Lorik T, Weitz D A

机构信息

Department of Physics & DEAS, Harvard University, Cambridge, Massachusetts 02138, USA.

出版信息

Phys Rev Lett. 2004 Sep 3;93(10):108302. doi: 10.1103/PhysRevLett.93.108302. Epub 2004 Sep 2.

DOI:10.1103/PhysRevLett.93.108302

PMID:15447462

Abstract

We show that the dynamics of large fractal colloid aggregates are well described by a combination of translational and rotational diffusion and internal elastic fluctuations, allowing both the aggregate size and internal elasticity to be determined by dynamic light scattering. The comparison of results obtained in microgravity and on Earth demonstrates that cluster growth is limited by gravity-induced restructuring. In the absence of gravity, thermal fluctuations ultimately inhibit fractal growth and set the fundamental limitation to the lowest volume fraction which will gel.

摘要

我们表明，大型分形胶体聚集体的动力学可以通过平移扩散、旋转扩散和内部弹性涨落的组合得到很好的描述，这使得聚集体尺寸和内部弹性都能够通过动态光散射来确定。在微重力环境和地球上所获得结果的比较表明，团簇生长受到重力诱导重组的限制。在没有重力的情况下，热涨落最终会抑制分形生长，并为能够形成凝胶的最低体积分数设定基本限制。

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胶体聚集过程中凝胶化的限制

Limits to gelation in colloidal aggregation.

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