Advanced Energy Materials,
Journal Year:
2024,
Volume and Issue:
14(23)
Published: April 3, 2024
Abstract
Solar
energy
can
be
utilized
in
photocatalysis
technology
to
realize
light‐driven
hydrogen
peroxide
(H
2
O
)
production,
a
green
chemical
synthesis
route.
Designing
high‐performance
photocatalysts
is
critical
achieving
practical
solar
H
production.
During
the
past
decade,
significant
research
progress
made
photocatalytic
materials
for
Particularly
2D
materials‐based
stand
out
due
their
unique
physical
and
properties.
This
review
highlights
intricate
relationship
between
material
innovation
photochemical
It
starts
with
fundamental
principles
of
generation,
focusing
on
crucial
steps
such
as
photon
absorption,
carrier
dynamics,
surface
reactions,
challenges
that
solve
at
each
step.
Then,
various
production
are
introduced
detail.
Engineering
strategies
optimize
performance
discussed
afterward.
Finally,
future
opportunities
designing
outlined.
expected
inspire
engineering
conversion
other
chemicals.
EcoEnergy,
Journal Year:
2023,
Volume and Issue:
1(2), P. 248 - 295
Published: Dec. 1, 2023
Abstract
In
the
advancing
world
of
graphene,
highly
anisotropic
2D
semiconductor
nanosheets,
notable
for
their
nanometer‐scale
thickness,
have
emerged
as
a
leading
innovation,
displaying
immense
potential
in
exploration
renewable
and
clean
energy
production.
These
garnered
significant
attention
from
researchers.
The
nanosheets
are
marked
by
extraordinary
electronic,
optical,
chemical
attributes,
positioning
them
attractive
foundational
components
heterogeneous
photocatalysts.
This
review
diligently
summarizes
both
seminal
work
ongoing
developments
pertaining
to
application
solar
within
context
photocatalysis.
We
begin
detailing
distinctive
properties
concentrating
on
pivotal
roles
augmenting
photocatalytic
efficiency,
explaining
intrinsic
mechanisms
that
govern
migration
rate
photogenerated
carriers
material's
surface.
Subsequently,
we
delineate
methods
employed
synthesize
typical
nanosheets.
alignment
with
overarching
objective
expanding
light
absorption
capacity
accelerating
charge
transfer,
also
examine
current
research
hybridization
techniques
involving
materials
varied
dimensions,
well
deployment
diverse
applications.
conclude
identifying
promising
avenues
challenges
await
further
this
burgeoning
field.
Chemical Society Reviews,
Journal Year:
2024,
Volume and Issue:
53(10), P. 5291 - 5337
Published: Jan. 1, 2024
Design
principles,
engineering
strategies,
challenges,
and
opportunities
of
gel
polymer
electrolytes
for
rechargeable
batteries
toward
wide-temperature
applications
are
thoroughly
reviewed.
Angewandte Chemie International Edition,
Journal Year:
2024,
Volume and Issue:
63(25)
Published: April 16, 2024
Covalent
organic
frameworks
(COFs)
have
recently
shown
great
potential
for
photocatalytic
hydrogen
production.
Currently
almost
all
reports
are
focused
on
two-dimensional
(2D)
COFs,
while
the
3D
counterparts
rarely
explored
due
to
their
non-conjugated
derived
from
sp
Chemical Society Reviews,
Journal Year:
2024,
Volume and Issue:
53(4), P. 1823 - 1869
Published: Jan. 1, 2024
This
review
summarizes
the
advancements
of
2D
polymers
and
highlights
their
unique
advantages,
focusing
on
recent
research
progress
in
design,
synthesis,
assembly
processing,
as
well
energy-related
applications.
Chemical Society Reviews,
Journal Year:
2024,
Volume and Issue:
53(8), P. 3829 - 3895
Published: Jan. 1, 2024
This
review
categorizes
subnanometer
pores/channels
(SNPCs)
from
structural
perspective
and
demonstrates
electrochemical
couplings
in
SNPCs
for
batteries
while
proposing
corresponding
challenges
future
research
directions.
Small,
Journal Year:
2023,
Volume and Issue:
19(44)
Published: June 28, 2023
Herein,
a
patterned
rod-like
CoP@NiCoP
core-shell
heterostructure
is
designed
to
consist
of
CoP
nanowires
cross-linked
with
NiCoP
nanosheets
in
tight
strings.
The
interfacial
interaction
within
the
heterojunction
between
two
components
generates
built-in
electric
field
that
adjusts
charge
state
and
create
more
active
sites,
accelerating
transfer
improving
supercapacitor
electrocatalytic
performance.
unique
structure
suppresses
volume
expansion
during
charging
discharging,
achieving
excellent
stability.
As
result,
exhibits
high
specific
capacitance
2.9
F
cm-2
at
current
density
3
mA
ion
diffusion
rate
(Dion
2.95
×
10-14
cm2
s-1
)
charging/discharging.
assembled
asymmetric
CoP@NiCoP//AC
energy
42.2
Wh
kg-1
power
126.5
W
stability
retention
83.8%
after
10
000
cycles.
Furthermore,
modulated
effect
induced
by
also
endows
self-supported
electrode
HER
performance
an
overpotential
71
mV
.
This
research
may
provide
new
perspective
on
generation
through
rational
design
heterogeneous
structures
for
electrochemical
electrocatalytical
Advanced Science,
Journal Year:
2023,
Volume and Issue:
11(1)
Published: Nov. 8, 2023
Atomic
layer
deposition
(ALD)
has
become
the
most
widely
used
thin-film
technique
in
various
fields
due
to
its
unique
advantages,
such
as
self-terminating
growth,
precise
thickness
control,
and
excellent
quality.
In
energy
storage
domain,
ALD
shown
great
potential
for
supercapacitors
(SCs)
by
enabling
construction
surface
engineering
of
novel
electrode
materials.
This
review
aims
present
a
comprehensive
outlook
on
development,
achievements,
design
advanced
electrodes
involving
application
realizing
high-performance
SCs
date,
organized
several
sections
this
paper.
Specifically,
focuses
understanding
influence
parameters
electrochemical
performance
discusses
nanostructured
electrochemically
active
materials
templates
SCs.
It
examines
highlights
ALD's
role
passivating
creating
3D
nanoarchitectures.
The
relationship
between
synthesis
procedures
SC
properties
is
analyzed
guide
future
research
preparing
applications.
Finally,
it
concluded
suggesting
directions
scope
development
further
leverage
advantages
fabricating
new
harness
unexplored
opportunities
fabrication
advanced-generation
