Combining
the
efficient
barrier
and
self-repairing
effects
into
2D
lamellar
materials
has
been
an
emerging
tactic
for
developing
prominent
anti-corrosion
coatings.
Herein,
a
cerium/2-methylimidazole
metal-organic
framework
(Ce-MOF)
was
grown
in-situ
on
surface
of
ultrathin
α-ZrP
nanosheets
with
favorable
dispersibility.
The
parallel
arrangement
α-ZrP-based
among
epoxy
polymer
matrix
were
driven
by
shear
force
from
blade-coating
technology.
In
current
research
composite
anti-corrosive
coatings,
prepared
coating
demonstrated
strongest
physical
optimal
ability,
which
may
pave
feasible
route
to
design
smart
protective
coatings
various
corrosion
types
such
as
filiform
corrosion.
Langmuir,
Год журнала:
2024,
Номер
40(10), С. 5420 - 5432
Опубликована: Фев. 29, 2024
The
superhydrophobic
surface
and
slippery
liquid-infused
porous
(SLIPS)/lubricant-infused
(LIS)
have
attracted
increasing
attention
owing
to
their
multifunctionality.
However,
practical
applications
face
several
problems
such
as
complex
inefficient
preparation
technology,
loss
of
lubricant,
fragile
microstructures.
Therefore,
new
strategies
for
preparing
microstructures
must
be
developed
constructing
lubricant-infused
coatings.
Herein,
a
low-cost
high-efficiency
method
developing
coatings
based
on
in
situ
grown
TiO2
the
hollow
kapok
fiber
(KF)
is
reported.
anti-icing,
antifouling,
anticorrosion
performance
are
compared.
coating
reduces
formation
accumulation
ice.
exhibits
an
extremely
low
ice
adhesion
strength
durable
anti-icing
properties.
show
outstanding
antifouling
property
diatom;
superior
stability
over
LIS
without
external
force
field.
shows
excellent
corrosion
resistance
durability
when
immersed
3.5%
NaCl
solution.
loses
its
protection
result
media
permeating
metal
substrate
via
electrolytic
cell
interface,
provides
lasting
because
lubricant
filling
into
interface.
Although
will
lose
this
simple
convenient
approach
can
repeated
keep
active.
This
study
inspiration
fabrication
surfaces
natural
products.
