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Prewetting

Prewetting is a surface phase transition observed in fluids in contact with a solid substrate, where the thickness of the adsorbed liquid film changes discontinuously as a control parameter is varied away from bulk liquid–vapor coexistence. This phenomenon occurs at temperatures below the wetting temperature and is driven by the competition between fluid–fluid and solid–fluid interactions, notably long-range van der Waals forces. In a temperature–chemical potential (or pressure) phase diagram, there exists a line of first-order transitions, the prewetting line, marking a jump between a thin and a thick adsorbed film. The line extends from the vicinity of the bulk coexistence line into a metastable region and usually terminates at a prewetting critical point. As the temperature increases toward the wetting temperature, the two film branches merge and complete wetting sets in at coexistence.

Theoretical descriptions employ interfacial Hamiltonians and density functional theory, which capture the balance of interfacial energies

Prewetting is distinguished from complete wetting and partial wetting by the existence of a finite-thickness film

and
disjoining
pressure.
Experimental
evidence
comes
from
adsorption
isotherms
showing
a
sudden
step
in
film
thickness,
along
with
reflectivity,
ellipsometry,
or
force
measurements
between
surfaces
that
reveal
abrupt
changes
in
film
structure.
transition
below
the
wetting
temperature
and
is
an
important
concept
in
surface
science,
capillary
condensation,
and
micro/nano-scale
coating
processes.