**Correlation between ordering and shear thinning in confined OMCTS
liquids**

Y Kobayashi and N Arai and K Yasuoka, JOURNAL OF CHEMICAL PHYSICS, 157, 114506 (2022).

DOI: 10.1063/5.0099473

Despite decades of extensive research, the behavior of confined liquids, particularly in the mixed/boundary lubrication regime, remains unelucidated. This can be attributed to several factors, including the difficulty to make direct experimental observations of the behavior of lubricant molecules under nonequilibrium conditions, the high computational cost of molecular simulations to reach steady state, and the low signal-to-noise ratio at extremely low shear rates corresponding to actual operating conditions. In this regard, we studied the correlation between the structure formation and shear viscosity of octamethylcyclotetrasiloxane confined between two mica surfaces in a mixed/boundary lubrication regime. Three different surface separation- corresponding to two-, three-, and five-layered structures-were considered to analyze the effect of confinement. The orientational distributions with one specific peak for n = 2 and two distributions, including a parallel orientation with the surface normal for n > 2, were observed at rest. The confined liquids exhibited a distinct shear- thinning behavior independent of surface separations for a relatively low shear rate, (<(gamma)over dot>) <= 10(8) s(-1). However, the shear viscosities at (<(gamma)over dot>) <= 10(8) s(-1) depended on the number of layered structures. Newtonian behavior was observed with further increase in the shear rate. Furthermore, we found a strong correlation between the degree of molecular orientation and the shear viscosity of the confined liquids. The magnitude of the shear viscosity of the confined liquids can primarily be determined by the degree of molecular orientation, and shear thinning originates from the vanishing of specific orientational distributions with increasing shear rate. Published under a nonexclusive license by AIP Publishing.

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