胶体球加耗尽剂流体临界点处的第二维里系数

Second virial coefficient at the critical point in a fluid of colloidal spheres plus depletants.

作者信息

Tuinier Remco, Feenstra Maartje S

机构信息

Van't Hoff Laboratory for Physical and Colloid Chemistry, Department of Chemistry, Debye Institute, Utrecht University , Padualaan 8, 3584 CH Utrecht, The Netherlands.

出版信息

Langmuir. 2014 Nov 11;30(44):13121-4. doi: 10.1021/la5023856. Epub 2014 Oct 29.

DOI:10.1021/la5023856

PMID:25329352

Abstract

Vliegenthart-Lekkerkerker (VL) criterion B2 = -6vc for second virial coefficient B2 at the critical (colloidal) gas-liquid point is considered for a mixture of spheres with volume vc plus depletants. For the onset of fluid-phase instability, the VL criterion holds for a wide range of shapes of direct attractive forces between hard-core spheres (Vliegenthart, G. A.; Lekkerkerker, H. N. W. J. Chem. Phys. 2000, 112, 5364). In the case of long-ranged attractions imposed indirectly via depletants, it is found that the VL relation fails. Instead, B2/vc at the critical point depends strongly on the sphere/depletant size ratio. By making the hard spheres sticky, we find that B2 moves gradually toward the VL criterion upon increasing the stickiness.

摘要

对于体积为(v_c)的球体与耗尽剂的混合物，在临界（胶体）气液点处，第二维里系数(B_2)的Vliegenthart - Lekkerkerker（VL）准则(B2 = -6v_c)被考虑。对于液相不稳定性的起始，VL准则适用于硬核球体之间各种形状的直接吸引力情况（Vliegenthart，G. A.；Lekkerkerker，H. N. W.《化学物理杂志》2000年，112卷，5364页）。在通过耗尽剂间接施加长程吸引力的情况下，发现VL关系不成立。相反，临界点处的(B_2/v_c)强烈依赖于球体/耗尽剂尺寸比。通过使硬球具有粘性，我们发现随着粘性增加，(B_2)逐渐趋近于VL准则。