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mesopores

Mesopores are pores with diameters between 2 and 50 nanometers, a size range defined by IUPAC to distinguish them from micropores (<2 nm) and macropores (>50 nm). Materials possessing such pores are called mesoporous materials. The mesoporous framework enables high surface area and accessible pore channels that facilitate the diffusion of relatively large molecules, making these materials useful in adsorption, catalysis, and separation processes.

Most well-known mesoporous materials are silica-based, including MCM-41, SBA-15, and MCF. They are typically prepared by

Key properties of mesoporous materials include high surface area (often several hundred square meters per gram),

Applications span catalysis and photocatalysis, gas and liquid adsorption and separation, drug delivery, sensing, and energy

templating
methods
in
which
a
structure-directing
agent,
often
a
surfactant,
forms
organized
micelles
around
which
inorganic
precursor
species
condense.
In
soft-templating
routes,
the
surfactant
self-assembles
into
regular
mesophases;
acid
or
basic
conditions
and
temperature
control
the
final
pore
structure.
MCM-41
features
a
two-dimensional
hexagonal
array
of
uniform
cylindrical
pores,
whereas
SBA-15
possesses
larger
pores
with
a
more
open
structure
and
thicker
walls.
Hard
templating
or
nanocasting
can
produce
mesoporous
carbons
and
metal
oxides
by
copying
a
solid
template.
tunable
pore
size,
and
narrow
pore
size
distribution.
Characterization
commonly
uses
nitrogen
adsorption-desorption
isotherms
to
yield
BET
surface
area
and
BJH
pore
size,
along
with
transmission
electron
microscopy
and
small-angle
X-ray
scattering
to
reveal
pore
ordering.
storage.
In
addition
to
silica,
other
mesoporous
materials
such
as
mesoporous
aluminosilicates,
transition-metal
oxides,
and
carbon-based
systems
are
studied.
Functionalization
of
pore
surfaces
allows
chemical
selectivity
or
anchoring
of
active
centers.