Small,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Oct. 10, 2024
Abstract
Water
polluted
by
toxic
chemicals
due
to
waste
from
chemical/pharmaceuticals
and
harmful
microbes
such
as
E.
Coli
bacteria
causes
several
fatal
diseases;
therefore,
water
filtration
is
crucial
for
accessing
clean
safe
necessary
good
health.
Conventional
technologies
include
activated
carbon
filters,
reverse
osmosis,
ultrafiltration.
However,
they
face
challenges,
including
high
energy
consumption,
fouling,
limited
selectivity,
inefficiencies
in
removing
certain
contaminants,
dimensional
control
of
pores,
structural/chemical
changes
at
higher
thermal
conditions
upon
prolonged
usage
filter.
Recently,
the
advent
2D
materials
graphene,
BN,
MoS
2
,
MXenes,
so
on
opens
new
avenues
advanced
systems.
This
review
delves
into
nanoarchitectonics
applications.
The
current
state
explored,
inherent
challenges
are
outlines,
unique
properties
advantages
highlighted.
Furthermore,
scope
this
discussed,
which
encompasses
synthesis,
characterization,
application
various
filtration,
providing
insights
future
research
directions
potential
industrial
Nano-Micro Letters,
Journal Year:
2025,
Volume and Issue:
17(1)
Published: Jan. 15, 2025
Abstract
The
proliferation
of
wearable
biodevices
has
boosted
the
development
soft,
innovative,
and
multifunctional
materials
for
human
health
monitoring.
integration
sensors
with
intelligent
systems
is
an
overwhelming
tendency,
providing
powerful
tools
remote
monitoring
personal
management.
Among
many
candidates,
two-dimensional
(2D)
stand
out
due
to
several
exotic
mechanical,
electrical,
optical,
chemical
properties
that
can
be
efficiently
integrated
into
atomic-thin
films.
While
previous
reviews
on
2D
primarily
focus
conventional
configurations
like
graphene,
rapid
new
opened
up
novel
applications,
particularly
in
smart
interaction
functionalities.
This
review
aims
consolidate
recent
progress,
highlight
unique
advantages
materials,
guide
future
research
by
discussing
existing
challenges
opportunities
applying
biodevices.
We
begin
in-depth
analysis
advantages,
sensing
mechanisms,
potential
applications
biodevice
fabrication.
Following
this,
we
systematically
discuss
state-of-the-art
based
various
physiological
signals
within
body.
Special
attention
given
showcasing
multi-functionality
devices,
mainly
including
self-power
supply,
diagnosis/treatment,
human–machine
interaction.
Finally,
concludes
a
concise
summary
prospective
solutions
concerning
utilization
advanced
Chemical Reviews,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 2, 2025
Recent
breakthroughs
in
brain-inspired
computing
promise
to
address
a
wide
range
of
problems
from
security
healthcare.
However,
the
current
strategy
implementing
artificial
intelligence
algorithms
using
conventional
silicon
hardware
is
leading
unsustainable
energy
consumption.
Neuromorphic
based
on
electronic
devices
mimicking
biological
systems
emerging
as
low-energy
alternative,
although
further
progress
requires
materials
that
can
mimic
function
while
maintaining
scalability
and
speed.
As
result
their
diverse
unique
properties,
atomically
thin
two-dimensional
(2D)
are
promising
building
blocks
for
next-generation
electronics
including
nonvolatile
memory,
in-memory
neuromorphic
computing,
flexible
edge-computing
systems.
Furthermore,
2D
achieve
biorealistic
synaptic
neuronal
responses
extend
beyond
logic
memory
Here,
we
provide
comprehensive
review
growth,
fabrication,
integration
van
der
Waals
heterojunctions
optoelectronic
devices,
circuits,
For
each
case,
relationship
between
physical
properties
device
emphasized
followed
by
critical
comparison
technologies
different
applications.
We
conclude
with
forward-looking
perspective
key
remaining
challenges
opportunities
applications
leverage
fundamental
heterojunctions.
Nature Synthesis,
Journal Year:
2025,
Volume and Issue:
4(3), P. 327 - 335
Published: Jan. 2, 2025
Abstract
Two-dimensional
transition
metal
dichalcogenides
(TMDs)
exfoliated
from
bulk
layered
materials
possess
interesting
properties.
Most
oxides
are
not
and
therefore
cannot
be
exfoliated.
Here
we
report
the
synthesis
of
a
family
ultrathin
materials—transition
oxychalcogenides
(TMOCs)—and
demonstrate
their
unique
TMOCs
(MX
x
O
y
,
M
=
group
IV
or
V
metal,
X
chalcogen,
oxygen;
0–2)
2
)
have
been
fabricated
using
tetrabutylammonium
intercalation.
The
stoichiometry
can
adjusted,
which
enables
control
optical
bandgaps
tunability
electrical
conductivity
by
more
than
eight
orders
magnitude.
By
tuning
chalcogen-to-oxygen
ratio
along
with
local
atomic
structure
in
TMOCs,
it
is
possible
to
impart
unexpected
For
example,
contrast
conventional
TMDs,
hybrid
renders
them
surprisingly
stable
electrochemically
active
strong
acids,
allowing
used
as
proof-of-concept
catalysts
for
oxygen
evolution
reaction
at
pH
≈
0.
HfS
0.52
1.09
catalyst
shows
high
mass
activity
(103,000
A
g
−1
an
overpotential
0.5
V)
exhibits
durability
proton
exchange
membrane
water
electrolysers.
Sustainable Energy & Fuels,
Journal Year:
2024,
Volume and Issue:
8(16), P. 3476 - 3495
Published: Jan. 1, 2024
Flatland
materials
were
meticulously
surveyed
to
explore
their
functionality
in
photochemical
and
electrochemical
nitrogen
reduction
reaction
applications.
New
insights
are
presented
for
pilot-scale
NRR
operations
via
2D
materials.
Sensors,
Journal Year:
2025,
Volume and Issue:
25(4), P. 1042 - 1042
Published: Feb. 10, 2025
With
the
rapid
development
of
micro-nano
technology
and
wearable
devices,
flexible
photodetectors
(PDs)
have
drawn
widespread
interest
in
areas
such
as
healthcare,
consumer
electronics,
intelligence
interfaces.
Two-dimensional
(2D)
materials
with
layered
structures
excellent
optoelectronic
properties
mechanical
flexibility,
which
attract
a
great
deal
attention
applications.
Although
based
on
mechanically
exfoliated
2D
demonstrated
superior
performance
compared
to
traditional
Si-based
PDs,
large-scale
manufacturing
integration
remain
significant
challenges
for
achieving
industrial
production.
The
emerging
various
printing
provides
low-cost
highly
effective
method
integrated
manufacturing.
In
this
review,
we
comprehensively
introduce
most
recent
progress
printed
material
PDs.
We
first
reviewed
research
photodetectors,
discussion
is
focused
substrate
materials,
functional
figures
merits.
Furthermore,
solution
processing
coupled
film
strategies
produce
PDs
are
summarized.
Subsequently,
applications
image
sensors,
also
Finally,
point
out
potential
expect
work
inspire
promote
mass
process.
Journal of Materials Chemistry A,
Journal Year:
2024,
Volume and Issue:
12(23), P. 14035 - 14044
Published: Jan. 1, 2024
The
electrochemical
NO
reduction
reaction
(NORR)
for
the
synthesis
of
NH
3
from
nitric
oxide
(NO)
presents
a
promising
alternative
to
conventional
Haber
process
ammonia
production.
