Existing
plant
filler
lights
generally
have
serious
problems
such
as
huge
energy
consumption,
incomplete
spectrum,
mismatch
with
spectral
demand,
and
poor
sustainability.
In
order
to
solve
these
realize
the
concept
of
saving
intelligent
management,
this
study
proposes
a
solar-based
fill
light
system
for
greenhouses.
The
adopts
separate
design
photovoltaic
power
generation
control,
in
improve
practicability
light,
we
integrate
control
technology
well
Internet
Things
(IoT)
into
light.
Combined
PC
are
able
switch
different
spectra
at
any
time
following
plants
grown.
Through
numerical
example
analysis
experimental
research,
verified
effectiveness
system.
successfully
provides
function
greenhouses,
further
realizing
application
solar
optimizing
use.
This
viable
solution
supplemental
greenhouse
helps
address
challenges
insufficient
lack
sustainability
high
labor
costs
plants.
Molecules,
Год журнала:
2024,
Номер
29(18), С. 4331 - 4331
Опубликована: Сен. 12, 2024
Sodium-ion
batteries
(SIBs)
have
been
proposed
as
a
potential
substitute
for
commercial
lithium-ion
due
to
their
excellent
storage
performance
and
cost-effectiveness.
However,
the
substantial
radius
of
sodium
ions,
there
is
an
urgent
need
develop
anode
materials
with
exemplary
electrochemical
characteristics,
thereby
enabling
fabrication
sodium-ion
high
energy
density
rapid
dynamics.
Carbon
are
highly
valued
in
energy-storage
field
diverse
structures,
low
cost,
reliability.
This
review
comprehensively
summarizes
typical
structure;
mechanisms;
current
development
status
various
carbon-based
SIBs,
such
hard
carbon,
soft
graphite,
graphene,
carbon
nanotubes
(CNTs),
porous
materials.
also
provides
overview
future
related
companies
batteries.
Furthermore,
it
offers
summary
outlook
on
challenges
opportunities
associated
design
principles
large-scale
production
high-energy-density
requirements.
avenue
exploring
outstanding
improvement
strategies
materials,
which
can
provide
guidance
application
research.
Molecules,
Год журнала:
2025,
Номер
30(4), С. 820 - 820
Опубликована: Фев. 10, 2025
To
achieve
the
"double
carbon"
goal,
it
is
urgent
to
reform
energy
system.
The
oxygen
evolution
reaction
(OER)
a
vital
semi-reaction
for
many
new
energy-storage
and
conversion
devices.
Metal
nanoparticles
embedded
in
heteroatom-doped
carbon
materials
prepared
by
pyrolyzing
of
metal-organic
frameworks
(MOFs)
have
been
key
route
obtain
high-performance
electrochemical
catalysts.
Herein,
nanocatalyst
embedding
Ni
into
S-
N-co-doped
nanoplate
(Ni
NPs@SN-CNP)
has
synthesized
pyrolysis
Ni-MOF
precursor.
NPs@SN-CNP
exhibits
superior
performance
with
an
overpotential
256
mV
attain
10
mA
cm-2
low
Tafel
slope
value
95
dec-1.
Moreover,
self-assembled
overall-water-splitting
cell
NPs@SN-CNP/NF||Pt-C/NF
achieves
potential
1.56
V
at
high
cycling
stability
least
h.
improvement
this
benefit
from
its
large
surface
area,
unique
morphology,
nanostructure
electrocatalyst.
This
study
presents
novel
simple
approach
designing
OER
Advances in environmental engineering and green technologies book series,
Год журнала:
2025,
Номер
unknown, С. 15 - 32
Опубликована: Март 28, 2025
The
intersection
of
artificial
intelligence
(AI)
and
renewable
energy
systems
is
transforming
how
generated,
distributed,
consumed.
This
paper
explores
AI's
applications
in
three
key
sectors:
solar,
wind,
green
hydrogen.
AI
technologies
such
as
machine
learning,
neural
networks,
predictive
analytics
address
critical
challenges
the
variability
intermittency
resources.
Additionally,
AI-enhanced
have
broader
implications,
democratizing
access,
fostering
economic
growth,
aligning
with
global
climate
goals
like
Paris
Agreement
United
Nations'
Sustainable
Development
Goals.
By
leveraging
synergies
between
energy,
society
can
achieve
a
cleaner,
more
resilient,
equitable
future,
for
combating
change
promoting
sustainability.
highlights
transformative
potential
while
offering
insights
into
overcoming
barriers
to
its
widespread
adoption
systems.
ACS Applied Materials & Interfaces,
Год журнала:
2025,
Номер
unknown
Опубликована: Май 16, 2025
Electrocatalytic
glycerol
oxidation
reaction
(GOR)
coupled
with
hydrogen
evolution
(HER)
is
an
ideal
method
to
achieve
efficient
production.
However,
realizing
the
stable
degradation
of
formate
at
high
current
densities
still
faces
great
challenges,
mainly
stemming
from
competition
between
GOR
and
oxygen
(OER)
potentials.
To
address
this
issue,
in
study,
S-Cu-Ni/NF
catalysts
were
successfully
synthesized
using
Cu-Ni/NF
as
precursors.
The
introduction
Cu
effectively
suppressed
OER,
enabling
more
than
75%
Faraday
efficiency
over
a
wide
potential
range
1.3
V
vs
RHE
1.6
RHE.
Meanwhile,
S
doping
significantly
enhanced
electron
transport
ability
GOR,
catalyst
density
100
mA
cm-2
low
1.395
In
addition,
after
24
h
continuous
operation
cm-2,
increased
by
only
40
mV,
demonstrating
excellent
stability.
Scanning
microscopy
energy
dispersive
spectra
(SEM-EDS),
X-ray
photoelectron
(XPS)
situ
Raman
characterization
confirmed
that
precipitation
promoted
formation
active
site
NiOOH
its
dynamic
growth
during
process.
present
study
not
improved
selectivity
potentials
inhibiting
OER
but
also
performance,
demonstrated
densities,
provided
feasible
strategy
for
industrial
application
hydrogenolysis.
