Advanced Functional Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 7, 2025
Abstract
The
“Solar
Sabatier”
reaction
has
emerged
as
a
promising
sustainable
method
for
the
CO
2
hydrogenation.
development
of
advanced
metal‐support
catalysts
based
on
Strong
Metal‐Support
Interaction
(SMSI)
offers
significant
advantages
in
activation
and
regulation
selectivity.
Herein,
novel
composite
Ni/CaTiO
3
catalyst
consisting
Ni
Ni‐doped
CaTiO
is
synthesized
utilized
methanation.
A
noteworthy
finding
that
incorporation
into
matrix
instrumental
formation
oxygen
vacancies
establishment
SMSI
between
.
enhanced
resulting
from
surface‐doped
atoms
not
only
facilitated
effective
interface
contact
metallic
surface
but
also
significantly
improved
migration
efficiency
hydrogen
reduced
barrier
methanation
optimized
rate‐limiting
step,
all
which
are
advantageous
Consequently,
exhibited
extraordinary
performance,
achieving
conversion
rate
87.77%,
CH
4
generation
3.12
mol
g
−1
h
,
≈100%
selectivity
under
ambient
pressure
conditions.
This
investigation
lays
groundwork
design
highly
active
understanding
mechanisms
underlying
SMSI.
Energy Materials,
Journal Year:
2025,
Volume and Issue:
5(6)
Published: Feb. 28, 2025
Photothermal
catalysis
has
emerged
as
a
promising
strategy
for
converting
carbon
dioxide
(CO2)
into
value-added
chemicals
and
fuels,
offering
dual-energy
approach
that
combines
light
thermal
energy
to
drive
reactions
under
mild
conditions.
effects
are
usually
demonstrated
by
using
plasmonic
nanoparticles,
which
generate
hot
carriers
localized
heating
through
absorption.
These
facilitate
chemical
lowering
activation
barriers
increasing
reaction
rates.
The
synergy
between
carrier-induced
redox
thermocatalytic
processes
driven
allows
the
of
challenging
with
reduced
inputs.
balance
these
pathways
can
be
optimized
rational
design
photothermal
catalysts.
In
this
review,
we
highlight
recent
advancements
in
catalyst
materials,
especially
emphasizing
importance
achieve
higher
efficiencies
CO2
conversion
such
hydrogenation
dry
reforming
methane,
both
vital
reducing
greenhouse
gases
producing
clean
fuels.
Finally,
current
challenges,
outlook,
new
strategies
optimization
will
discussed
realize
full
potential
creating
sustainable
low-carbon
future.
Advanced Functional Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 7, 2025
Abstract
The
“Solar
Sabatier”
reaction
has
emerged
as
a
promising
sustainable
method
for
the
CO
2
hydrogenation.
development
of
advanced
metal‐support
catalysts
based
on
Strong
Metal‐Support
Interaction
(SMSI)
offers
significant
advantages
in
activation
and
regulation
selectivity.
Herein,
novel
composite
Ni/CaTiO
3
catalyst
consisting
Ni
Ni‐doped
CaTiO
is
synthesized
utilized
methanation.
A
noteworthy
finding
that
incorporation
into
matrix
instrumental
formation
oxygen
vacancies
establishment
SMSI
between
.
enhanced
resulting
from
surface‐doped
atoms
not
only
facilitated
effective
interface
contact
metallic
surface
but
also
significantly
improved
migration
efficiency
hydrogen
reduced
barrier
methanation
optimized
rate‐limiting
step,
all
which
are
advantageous
Consequently,
exhibited
extraordinary
performance,
achieving
conversion
rate
87.77%,
CH
4
generation
3.12
mol
g
−1
h
,
≈100%
selectivity
under
ambient
pressure
conditions.
This
investigation
lays
groundwork
design
highly
active
understanding
mechanisms
underlying
SMSI.
