Impact of surface roughness on liquid-liquid transition
Ken-ichiro Murata, Hajime Tanaka

TL;DR
This study demonstrates that surface nano-structuring via rubbing significantly influences the kinetics and pattern formation of liquid-liquid transition in a molecular liquid, revealing new control methods for LLT in confined systems.
Contribution
First experimental investigation showing how surface rubbing affects LLT kinetics and pattern formation, highlighting the role of surface structure in controlling phase transitions.
Findings
Surface rubbing accelerates LLT kinetics.
Rubbing induces barrier-less formation of liquid II phase.
Effect disappears in spinodal regime, confirming first-order transition.
Abstract
Liquid-liquid transition (LLT) in single-component liquids is one of the most mysterious phenomena in condensed matter. So far this problem has attracted attention mainly from the purely scientific viewpoint. Here we report the first experimental study on an impact of surface nano-structuring on LLT by using a surface treatment called rubbing, which is the key technology for the production of liquid crystal displays. We find that such a rubbing treatment has a significant impact on the kinetics of liquid-liquid transition (LLT) of an isotropic molecular liquid, triphenyl phosphite. For a liquid confined between rubbed surfaces, surface-induced barrier-less formation of the liquid II phase is observed even in a metastable state, where there should be a barrier for nucleation of the liquid II phase in bulk. Thus, surface rubbing of substrates not only changes the ordering behavior, but…
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