Department of Physics, Worcester Polytechnic Institute, Worcester, Massachusetts 01609, USA.
J Chem Phys. 2010 Jul 28;133(4):044513. doi: 10.1063/1.3466917.
High-resolution calorimetry has been performed to study the effect of dilution by a nonmesogenic, low-molecular weight solvent (linear n-hexane) on the isotropic-nematic (I-N) phase transition in the liquid crystal (LC) octylcyanobiphenyl (8CB) as a function of n-hexane concentration. Numerous temperature scans were performed without continuous mixing for pure 8CB and all mixture samples of n-hexane mole fraction ranging from x(hex)=0.02 to 0.12. The I-N specific heat peak remains first-order for all samples and shifts toward lower temperature nonlinearly while the two-phase I+N coexistence width broadens linearly with increasing x(hex). Multiple heating and cooling scans are reproducible and indicate phase separation, if it occurs, must be on very short length scales and is reversible. These results may be a consequence of a competition between random dilution effects and the tendency to phase separate. It is shown that solvent dilution of a LC, if miscible and depending on solvent structure, can lead to a controlled altering of the intermolecular potentials and softening of the LC viscoelastic properties.
已进行高分辨率量热法研究,以研究非介晶、低分子量溶剂(线性正己烷)稀释对各向同性-向列(I-N)相转变的影响液晶(LC)辛基氰联苯(8CB)随正己烷浓度的变化。对纯 8CB 和所有正己烷摩尔分数范围为 x(hex)=0.02 至 0.12 的混合物样品进行了多次温度扫描,而无需连续混合。对于所有样品,I-N 比热容峰仍然是一级相变,并随着温度的降低呈非线性变化,而两相 I+N 共存宽度随 x(hex)的增加呈线性增加。多次加热和冷却扫描是可重复的,并表明如果发生相分离,相分离必须在非常短的长度尺度上发生且是可逆的。这些结果可能是随机稀释效应与相分离趋势之间竞争的结果。结果表明,如果 LC 可混溶且取决于溶剂结构,溶剂稀释可以导致分子间相互作用的受控改变和 LC 粘弹性性质的软化。