Small Science,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 21, 2025
Functional
polymer
composites
offer
versatility
and
high
performance
through
material
fusion,
but
flammability
is
an
obstacle
to
application.
Metal–organic
frameworks
(MOFs)
have
attracted
attention
in
the
field
of
flame
retardant
due
their
structural
diversity
specific
surface
area,
they
suffer
from
low
efficiency
agglomeration
issues
when
used
alone.
Combining
with
two‐dimensional
(2D)
nanomaterials
can
improve
above
situation.
Herein,
strategies
are
explored
for
integrating
MOFs
2D
materials
physical
mixing
situ
growth
enhance
dispersion
flame‐retardant
effects
polymers.
Additionally,
integration
sensing
achieve
intelligent
monitoring
control,
as
well
real‐time
risk
assessment
system
optimization.
In
summary,
this
review
deeply
analyzes
dispersion,
interfacial
interaction,
adjustment
mechanism
composite
discusses
detail
application
potential
hybrids
formed
by
sensing.
Finally,
opportunities
challenges
faced
functional
future
summarized
prospected.
it
also
expected
facilitate
researchers
quickly
understand
latest
developments
guide
effective
design.
Applied Physics Reviews,
Journal Year:
2024,
Volume and Issue:
11(2)
Published: May 6, 2024
The
coupling
of
ferroelectric,
photoelectric,
semiconducting,
and
phase
transition
properties
make
two-dimensional
(2D)
In2Se3
a
material
platform
with
great
application
potential
in
the
change
memory,
intelligent
sensing,
in-memory
computing
devices.
However,
at
present,
there
are
unclear
mechanisms
ferroelectric
dynamics
2D
In2Se3,
which
seriously
hinder
development
device
applications.
In
this
review,
we
mainly
highlight
devices
beginning
history
bulk
In2Se3.
relations
four
phases,
including
α-,
β-,
β′-,
γ-phases,
under
various
driving
forces,
summarized.
different
temperature,
laser,
electric-field,
vacancy,
doping,
strain,
introduced
discussed.
Moreover,
phase-control
growth
films
their
novel
applications
demonstrated.
Finally,
perspective
on
future
research
directions
is
provided.
Catalysts,
Journal Year:
2024,
Volume and Issue:
14(10), P. 689 - 689
Published: Oct. 3, 2024
Two-dimensional
transition
metal
dichalcogenides
(TMDs),
also
known
as
MX2,
have
attracted
considerable
attention
due
to
their
structure
analogous
graphene
and
unique
properties.
With
superior
electronic
characteristics,
tunable
bandgaps,
an
ultra-thin
two-dimensional
structure,
they
are
positioned
significant
contenders
in
advancing
electrocatalytic
technologies.
This
article
provides
a
comprehensive
review
of
the
research
progress
TMDs
field
water
splitting.
Based
on
fundamental
properties
principles
electrocatalysis,
strategies
enhance
performance
through
layer
control,
doping,
interface
engineering
discussed
detail.
Specifically,
this
delves
into
basic
properties,
reaction
mechanisms,
measures
improve
catalytic
splitting,
including
creation
more
active
sites,
phase
engineering,
construction
heterojunctions.
Research
these
areas
can
provide
deeper
understanding
guidance
for
application
thereby
promoting
development
related
technologies
contributing
solution
energy
environmental
problems.
hold
great
potential
future
needs
further
explore
develop
new
TMD
materials,
optimize
catalysts
achieve
efficient
sustainable
conversion.
Additionally,
it
is
crucial
investigate
stability
durability
during
long-term
reactions
longevity.
Interdisciplinary
cooperation
will
bring
opportunities
research,
integrating
advantages
different
fields
from
practical
application.
Advanced Energy Conversion Materials,
Journal Year:
2023,
Volume and Issue:
unknown, P. 40 - 55
Published: Dec. 6, 2023
Two-dimensional
(2D)
materials
have
captured
the
imagination
of
scientific
community
for
their
remarkable
properties
and
potential
applications.
To
further
harness
full
spectrum
capabilities,
researchers
turned
to
phase
engineering
as
a
powerful
tool.
Phase
involves
controlling
manipulating
structural
electronic
phases
2D
materials,
leading
wide
array
novel
tunable
properties.
In
this
comprehensive
review,
we
investigate
exciting
world
in
materials.
We
start
by
providing
detailed
background
on
emergence
highlighting
exceptional
electronic,
mechanical,
optical
then
explore
concept
engineering,
elucidating
its
principles
significance
tailoring
behavior
Advanced
field
applications
such
sensing,
water
desalination,
energy
storage,
detection
were
also
considered
review
article.
Advanced Energy Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 3, 2025
Abstract
Despite
significant
advancements
in
materials
design
for
renewable
energy
devices,
the
fundamental
understanding
of
underlying
processes
many
remains
limited,
particularly
complex,
inhomogeneous
systems
and
interfaces.
In
such
cases,
situ
studies
with
high
spatial
resolution
are
essential
uncovering
new
insights
into
excitation,
dissipation,
conversion
processes.
Recent
progress
atomic
scale
methods
has
greatly
enhanced
materials.
Here,
key
advances
reviewed,
including
situ,
environmental
ultra‐fast
transmission
electron
microscopy,
scanning
probe
techniques,
single‐photon‐resolved
infrared
spectroscopy,
velocity‐resolved
molecular
kinetics,
grazing‐incidence
X‐ray
spectroscopy.
These
techniques
enable
study
from
nanometers
down
to
individual
atoms,
meV,
single‐quantum
detection.
Especially
they
access
that
involve
multiple
degrees
freedom,
strong
coupling,
or
inhomogeneities.
They
have
driven
a
qualitative
leap
processes,
opening
avenues
improving
existing
designing
novel
clean
efficient
photovoltaics,
friction,
surface
chemistry
(photo‐)electrochemistry.
Small Science,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 21, 2025
Functional
polymer
composites
offer
versatility
and
high
performance
through
material
fusion,
but
flammability
is
an
obstacle
to
application.
Metal–organic
frameworks
(MOFs)
have
attracted
attention
in
the
field
of
flame
retardant
due
their
structural
diversity
specific
surface
area,
they
suffer
from
low
efficiency
agglomeration
issues
when
used
alone.
Combining
with
two‐dimensional
(2D)
nanomaterials
can
improve
above
situation.
Herein,
strategies
are
explored
for
integrating
MOFs
2D
materials
physical
mixing
situ
growth
enhance
dispersion
flame‐retardant
effects
polymers.
Additionally,
integration
sensing
achieve
intelligent
monitoring
control,
as
well
real‐time
risk
assessment
system
optimization.
In
summary,
this
review
deeply
analyzes
dispersion,
interfacial
interaction,
adjustment
mechanism
composite
discusses
detail
application
potential
hybrids
formed
by
sensing.
Finally,
opportunities
challenges
faced
functional
future
summarized
prospected.
it
also
expected
facilitate
researchers
quickly
understand
latest
developments
guide
effective
design.
