Halide
perovskites
(HPs),
renowned
for
their
intriguing
optoelectronic
properties,
such
as
robust
light
absorption
coefficient,
long
charge
transfer
distance,
and
tunable
band
structure,
have
emerged
a
focal
point
in
the
field
of
photocatalysis.
However,
photocatalytic
performance
HPs
is
still
inhibited
by
rapid
recombination,
insufficient
potential
energy,
limited
number
surface
active
sites.
To
overcome
these
limitations,
integration
two-dimensional
(2D)
materials,
characterized
shortened
pathways
expansive
areas,
into
HP/2D
heterostructures
presents
promising
avenue
to
achieve
exceptional
interfacial
including
extensive
absorption,
efficient
separation
transfer,
energetic
redox
capacity,
adjustable
characteristics.
Herein,
comprehensive
review
delving
fundamentals,
engineering,
carrier
dynamics
material
presented.
Numerous
photocatalysts
fabricated
through
diverse
strategies
architectures
are
systematically
described
categorized.
More
importantly,
enhanced
properties
thoroughly
investigated
discussed.
Finally,
an
analysis
challenges
faced
development
photocatalysts,
alongside
insightful
recommendations
barriers,
provided.
Chemical Society Reviews,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Jan. 1, 2024
This
review
focuses
on
the
synthesis
and
characterization
of
defective
electrocatalysts,
internal
correlation
between
defects
catalytic
activity,
development
application
electrocatalysts
in
various
fields.
Small,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 2, 2025
Growing
global
population,
escalating
energy
consumption,
and
climate
change
threaten
future
security.
Fossil
fuel
combustion,
primarily
coal,
oil,
natural
gas,
exacerbates
the
greenhouse
effect
driving
warming
through
CO
Scientific Reports,
Journal Year:
2025,
Volume and Issue:
15(1)
Published: Jan. 22, 2025
Seawater
electrolysis
is
an
ideal
technology
for
obtaining
clean
energy—green
hydrogen.
Developing
efficient
bifunctional
catalysts
crucial
hydrogen
production
through
direct
seawater
electrolysis.
Currently,
metal
substrates
loaded
with
active
are
widely
employed
as
electrodes
However,
the
challenge
of
corrosion
cannot
be
ignored.
In
this
work,
boron-doped
diamond
(BDD)
excellent
resistance
was
explored
a
substrate
loading
in
A
step-by-step
electrodeposition
method
used
to
fabricate
FeCoS/Ni/BDD
electrode,
effectively
addressing
poor
adhesion
FeCoS
layer
BDD
substrate.
The
resulting
electrode
demonstrated
interesting
catalytic
performance,
achieving
oxygen
evolution
reaction
(OER)
and
(HER)
overpotentials
425
mV
360
mV,
respectively,
alkaline
simulated
(1
M
KOH
3.5
wt%
NaCl)
at
current
density
100
mA
cm−
2.
Furthermore,
by
increasing
concentration
3
M,
OER
HER
significantly
decreased
383
300
respectively.
This
work
offers
novel
approach
utilizing
design
corrosion-resistant
Advanced Sustainable Systems,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 24, 2025
Abstract
Greenhouse
agriculture
relies
heavily
on
fossil
fuels
for
indoor
lighting,
resulting
in
significant
greenhouse
gas
emissions.
Transitioning
to
renewable
energy
sources,
particularly
solar
energy,
offers
a
sustainable
solution.
Solar
being
clean
and
reliable,
is
ideal
agricultural
greenhouses,
reducing
their
dependency
conventional
sources
lowering
Recent
studies
have
highlighted
effective
technologies
integration.
This
article
reviews
the
role
of
luminescent
materials
like
quantum
dots
optimizing
light
management.
Quantum
enhance
absorption
by
converting
ultraviolet
radiation
into
visible
photosynthetically
active
(PAR),
improving
plant
photosynthesis
growth
conditions
controlled
environments.
Advancements
greenhouses
focus
integrating
such
as
light‐to‐light
conversion
photovoltaic
(PV)
systems.
dots,
inorganic
semiconductors,
are
covers,
high‐energy
UV
PAR
boosting
productivity.
Traditional
PV
modules
structures
can
cause
shading,
negatively
impacting
crop
growth.
However,
using
bifacial
based
Luminescent
Concentrators
(LSCs),
inside
while
capturing
at
edges
generate
electricity
internal
use,
mitigating
shading
issues
enhancing
efficiency.
