Center for Soft Condensed Matter Physics and Interdisciplinary Research, Soochow University, Suzhou, China.
Phys Rev Lett. 2011 Nov 11;107(20):208303. doi: 10.1103/PhysRevLett.107.208303. Epub 2011 Nov 8.
Water-lutidine mixtures permit the interparticle potentials of colloidal particles suspended therein to be tuned, in situ, from repulsive to attractive. We employ these systems to directly elucidate the effects of interparticle potential on glass dynamics in experimental samples composed of the same particles at the same packing fractions. Cooperative rearrangement regions (CRRs) and heterogeneous dynamics are observed in both types of glasses. Compared to repulsive glasses, the attractive glass dynamics are found to be heterogeneous over a wider range of time and length scales, and its CRRs involve more particles. Additionally, the CRRs are observed to be stringlike structures in repulsive glasses and compact structures in attractive glasses. Thus, the experiments demonstrate explicitly that glassy dynamics can depend on the sign of the interparticle interaction.
水-六氢吡啶混合物允许悬浮其中的胶体颗粒的颗粒间势在现场从排斥调整为吸引。我们利用这些系统直接阐明在由相同粒子在相同堆积分数组成的实验样品中颗粒间势对玻璃动力学的影响。在两种类型的玻璃中都观察到协同重排区(CRR)和非均匀动力学。与排斥玻璃相比,发现吸引玻璃动力学在更宽的时间和长度尺度上具有非均匀性,其 CRR 涉及更多的粒子。此外,在排斥玻璃中观察到 CRR 是串状结构,而在吸引玻璃中则是紧凑结构。因此,实验明确表明玻璃动力学可以取决于颗粒间相互作用的符号。
