iEnergy,
Год журнала:
2024,
Номер
3(1), С. 12 - 27
Опубликована: Март 1, 2024
As
a
burgeoning
energy
storage
technology,
Zn
microbatteries
(ZMBs)
exhibit
expansive
potential
for
applications.This
article
initially
presents
method
fabricating
ZMBs
utilizing
interdigitated
electrodes,
employing
advanced
techniques
such
as
3D
printing,
screen
laser
etching,
and
electrodeposition.These
methodologies
play
crucial
role
in
mitigating
anode-related
issues,
consequently
enhancing
battery
performance.Subsequently,
the
challenges
encountered
by
anodes,
including
dendrite
formation,
corrosion
passivation,
hydrogen
evolution,
cycle
exfoliation,
are
thoroughly
examined.Lastly,
comprehensive
strategy
stabilizing
anode
is
delineated,
encompassing
material
selection,
structure
construction,
interface
engineering,
electrolyte
optimization.In
essence,
preparation
fine-tuning
of
present
ongoing
challenges.With
continued
research
development
efforts,
it
anticipated
that
will
attain
efficient,
stable,
secure
performance
on
microscale,
offering
enduring
dependable
solutions
applications
miniature
electronic
devices
wearable
technology.
Advanced Energy Materials,
Год журнала:
2024,
Номер
14(39)
Опубликована: Июль 10, 2024
Abstract
Lithium–sulfur
(Li–S)
batteries
can
offer
high
capacity
and
energy‐density,
but
face
challenges
like
low
conductivity,
lithium
polysulfides
(LiPSs)
shuttling,
limited
reaction
kinetics.
In
this
study,
the
electronic
configuration
of
Mo
4d
orbital
in
MoS
2
is
modulated
through
a
one‐step
method
involving
tungstate
anion
(WO
4
2−
)
modulation
to
form
stable
1T‐MoS
/carbon
composite
(1T‐W‐MoS
/C).
When
WO
introduced,
it
causes
transfer
electrons
2H‐MoS
,
resulting
generation
1T
phase.
composite,
nanosheets
exhibit
remarkable
hydrophilicity,
catalytic
activity,
facilitating
LiPSs
adsorption
Li
+
transport.
Meanwhile,
create
abundant
adsorption/catalytic
sites
with
defects
on
basal
surface
edges
efficient
catalysis
conversion.
Furthermore,
3D‐printed
electrodes
without
utilization
binders
current
collectors
ensure
mass
loading
promote
ion
diffusion
electrolyte
penetration.
Theoretical
experimental
results
confirm
that
1T‐W‐MoS
/C
catalyze
conversion,
suppress
enhance
sulfur
Therefore,
/C/S
cathode
exhibits
initial
excellent
rate
capability,
achieving
an
areal
7.37
mAh
cm
−2
8.89
mg
.
Applied Physics Reviews,
Год журнала:
2024,
Номер
11(4)
Опубликована: Ноя. 5, 2024
Additive
manufacturing,
commonly
known
as
3D
printing,
is
an
innovative
technique
for
fabricating
batteries
with
arbitrary
architectures.
Understanding
the
intricacies
of
printing
designs
in
sodium
battery
materials
crucial
optimizing
their
electrochemical
properties
and
unlocking
full
potential
printed
batteries.
This
review
provides
a
comprehensive
overview
key
aspects
involved
fabrication
batteries,
encompassing
material
selectivity
criterion,
design
considerations,
optimization
strategies.
Challenges
prospects
high-performance
are
outlined,
aiming
to
provide
valuable
insights
into
new
conception
theoretical
guidance
performance
composites
by
practical
application
future.
International Journal of Surgery,
Год журнала:
2024,
Номер
110(10), С. 6748 - 6762
Опубликована: Июнь 21, 2024
The
advent
of
personalized
bone
prosthesis
materials
and
their
integration
into
orthopedic
surgery
has
made
a
profound
impact,
primarily
as
result
the
incorporation
three-dimensional
(3D)
printing
technology.
By
leveraging
digital
models
additive
manufacturing
techniques,
3D
enables
creation
customized,
high-precision
implants
tailored
to
address
complex
anatomical
variabilities
challenging
defects.
In
this
review,
we
highlight
significant
progress
in
utilizing
printed
prostheses
across
wide
range
procedures,
including
pelvis,
hip,
knee,
foot,
ankle,
spine
surgeries,
tumor
resections.
preoperative
planning,
surgical
navigation,
postoperative
rehabilitation
not
only
enhances
treatment
outcomes
but
also
reduces
risks,
accelerates
recovery,
optimizes
cost-effectiveness.
Emphasizing
potential
for
care
improved
patient
outcomes,
review
underscores
pivotal
role
advancing
practice
towards
precision,
efficiency,
patient-centric
solutions.
evolving
landscape
holds
promise
revolutionizing
approaches,
enhancing
ultimately
improving
quality
patients.
Advanced Science,
Год журнала:
2025,
Номер
unknown
Опубликована: Фев. 11, 2025
Abstract
3D
architected
electrodes
offer
inherent
physicochemical
advantages
for
energy
storage,
conversion,
and
sensing.
printing
methods
such
as
stereolithography
two
photon
polymerization
are
uniquely
capable
of
fabricating
these
with
a
high
degree
geometric
complexity
impossible
to
achieve
other
at
the
mesoscale
(10
µm–1
mm).
The
material
set
traditionally
is
focused
on
structural
materials
rather
than
functional
suitable
electronic
electrochemical
applications.
In
this
review
fundamental
challenges
considered
transforming
printed
into
conductive,
multifunctional
electrical
devices
by
nanocomposites,
infusing
molecular
precursors
post‐processing
structures
via
carbonization.
To
understand
design
toward
their
use
in
both
sensors
catalysts,
summarizes
recent
advances
hierarchical
porous
metastructures,
engineering
mass
transport
structures,
application
high‐throughput
machine
learning
artificial
intelligence.
These
emerging
approaches
electrode
architecture
promise
expand
capabilities
additive
manufacturing
beyond
bring
its
bear
modern
sensors,
batteries,
supercapacitors,
electrocatalysts.
