Probing
the Hydrophobic Interaction between Air Bubbles
and Partially Hydrophobic Surfaces Using Atomic Force Microscopy
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Abstract
The
hydrophobic interaction plays an essential role in various
natural phenomena and industrial processes. Previous studies on the
hydrophobic interaction focused mainly on the interaction between
hydrophobic solid surfaces for which the effective range of hydrophobic
attraction was reported to vary from ∼10 nm to >1 μm.
Here, we report studies of the interaction between an air bubble in
water used as a probe attached to the cantilever of an atomic force
microscope and partially hydrophobized mica surfaces. No bubble attachment
was observed for bare hydrophilic mica, but attachment behaviors and
attraction with an exponential decay length of 0.8–1.0 nm were
observed between the air bubble and partially hydrophobized mica as
characterized by a water contact angle on the mica surface that varied
from 45° to 85°. Our results demonstrate the important roles
of the additional attraction at partially hydrophobized surfaces and
hydrodynamic conditions in bubble attachment to substrate surfaces
and provide new insights into the basic understanding of this interaction
mechanism in various applications such as mineral flotation