The effect of surface heterogeneity on the drop size dependence of contact angles

Absence of drop size dependence of contact angles of sessile drop systems is sometimes observed in experiments. The contact angle data sometimes fluctuate periodically about a horizontal line. Moreover, in cases where a drop size dependence of contact angles exists, the contact angle data often scat

Contact angle measurements for the air/water/polyethylene and for the oil/water/quartz systems have been carried out over a wide range of drop (bubble) sizes, from \(60 \mu \mathrm{m}\) to \(2 \mathrm{~mm}\). Two distinctly different experimental techniques were used: placement of the drop (bubble)

## Experiments with different organic liquids have been conducted to study the drop size dependence of the contact angles on a self-assembled monolayer (SAM) surface of 1-octadecanethiol (HS(CH 2 ) 17 CH 3 ) on gold. Low-rate dynamic advancing contact angles were measured for sessile drops in vapo

We have studied theoretically the effect of gravity on the rough solid-liquid interface and have shown that its tension is enhanced by gravity when gas is adsorbed at it. As a result, the apparent contact angle on rough surfaces, which has been considered not to be influenced by gravity so far, can