Cell Reports Physical Science,
Год журнала:
2024,
Номер
5(2), С. 101820 - 101820
Опубликована: Фев. 1, 2024
The
exceptional
properties
of
liquid
metals
at
room
temperature,
such
as
their
fluidity,
stretchability,
deformability,
and
potential
applications,
have
rapidly
inspired
the
scientific
community.
At
present,
main
challenge
is
overcoming
technical
barriers
associated
with
characterization
metal
systems,
which
resulted
in
molecular
structure
remaining
effectively
unknown.
This
lack
knowledge
has
significantly
hampered
progress
emerging
field
chemistry,
prohibiting
tailored
design
relegating
researchers
to
work
by
trial
error.
In
recent
years,
several
technological
developments,
including
improved
analytical
tools,
emerged
that
tackle
current
challenges.
this
review,
we
present
a
comprehensive
appraisal
various
state-of-the-art
techniques
can
help
uncover
answers
long-standing
questions
domain
metal-in-metal
colloidal
systems.
We
describe
selected
generic
methodologies
unique
approaches
capture
changes
physical
chemical
behavior
molten
presence
internal
external
stimuli.
combination,
outlined
tools
will
deepen
our
understanding
chemistry
accelerate
research
translation
provide
solutions
areas
catalysis,
biomedicine,
reconfigurable
electronics.
Advanced Functional Materials,
Год журнала:
2023,
Номер
33(34)
Опубликована: Май 17, 2023
Abstract
Core–shell
nanostructures
have
received
widespread
attention
because
of
their
potential
usage
in
various
technological
and
scientific
fields.
However,
they
still
face
significant
challenges
terms
fabrication
core–shell
nanostructure
libraries
on
a
controlled,
even
programmed
scale.
This
study
proposes
general
approach
to
systematically
fabricate
nanohybrids
using
liquid‐metal
Ga
alloys
as
reconfigurable
templates,
the
initiation
local
galvanic
replacement
reaction
is
demonstrated
utilizing
an
ultrasonic
system.
Under
agitation,
hydrated
gallium
oxides
generated
liquid
metal
droplets,
simultaneously
delaminated
themselves
from
interfaces.
Subsequently,
single‐metal
or
bimetallic
components
are
deposited
fresh
smooth
Ga‐based
via
reactions
form
unique
metal/metal
nanohybrids.
Controlled
quantitative
regulation
diversity
non‐homogeneous
nanoparticle
shell
layer
composition
achieved.
The
obtained
used
efficient
microwave
absorbers
dissipate
unwanted
electromagnetic
wave
pollution.
effective
absorption
bands
(90%
absorption)
GaNi
GaCoNi
3.92
3.8
GHz
at
thickness
1.4
mm,
respectively.
advanced
strategy
enables
growth
other
sulfides
by
spontaneous
interfacial
redox
for
functional
materials
future.
Advanced Materials,
Год журнала:
2022,
Номер
35(1)
Опубликована: Авг. 29, 2022
Eutectic
gallium-indium
(EGaIn),
a
liquid
metal
with
melting
point
close
to
or
below
room
temperature,
has
attracted
extensive
attention
in
recent
years
due
its
excellent
properties
such
as
fluidity,
high
conductivity,
thermal
stretchability,
self-healing
capability,
biocompatibility,
and
recyclability.
These
features
of
EGaIn
can
be
adjusted
by
changing
the
experimental
condition,
various
composite
materials
extended
further
obtained
mixing
other
materials.
In
this
review,
not
only
are
unique
introduced,
but
also
working
principles
for
EGaIn-based
devices
illustrated
developments
EGaIn-related
techniques
summarized.
The
applications
fields,
flexible
electronics
(sensors,
antennas,
electronic
circuits),
molecular
(molecular
memory,
opto-electronic
switches,
reconfigurable
junctions),
energy
catalysis
(heat
management,
motors,
generators,
batteries),
biomedical
science
(drug
delivery,
tumor
therapy,
bioimaging
neural
interfaces)
reviewed.
Finally,
critical
discussion
main
challenges
development
discussed,
potential
new
fields
prospected.
Advanced Materials,
Год журнала:
2024,
Номер
36(27)
Опубликована: Апрель 23, 2024
Wireless
and
wearable
sensors
attract
considerable
interest
in
personalized
healthcare
by
providing
a
unique
approach
for
remote,
noncontact,
continuous
monitoring
of
various
health-related
signals
without
interference
with
daily
life.
Recent
advances
wireless
technologies
have
promoted
practical
applications
due
to
their
significantly
improved
characteristics,
such
as
reduction
size
thickness,
enhancement
flexibility
stretchability,
conformability
the
human
body.
Currently,
most
researches
focus
on
active
materials
structural
designs
sensors,
just
few
exceptions
reflecting
data
transmission.
This
review
provides
comprehensive
overview
state-of-the-art
related
studies
empowering
sensors.
The
emerging
functional
nanomaterials
utilized
designing
modules
are
highlighted,
which
include
metals,
carbons,
MXenes.
Additionally,
outlines
system-level
integration
flexible
spanning
from
novel
design
strategies
enhanced
efficient
transmitting
wirelessly.
Furthermore,
introduces
representative
remote
noninvasive
physiological
through
on-skin
implantable
sensing
systems.
Finally,
challenges,
perspectives,
unprecedented
opportunities
discussed.
Advanced Materials,
Год журнала:
2024,
Номер
unknown
Опубликована: Ноя. 21, 2024
Lignocellulose-mediated
liquid
metal
(LM)
composites,
as
emerging
functional
materials,
show
tremendous
potential
for
a
variety
of
applications.
The
abundant
hydroxyl,
carboxyl,
and
other
polar
groups
in
lignocellulose
facilitate
the
formation
strong
chemical
bonds
with
LM
surfaces,
enhancing
wettability
adhesion
improved
interface
compatibility.
Beyond
serving
supportive
matrix,
can
be
tailored
to
optimize
microstructure
adapting
them
diverse
This
review
comprehensively
summarizes
fundamental
principles
recent
advancements
lignocellulose-mediated
highlighting
advantages
composite
fabrication,
including
facile
synthesis,
versatile
interactions,
inherent
functionalities.
Key
modulation
strategies
LMs
innovative
synthesis
methods
functionalized
composites
are
discussed.
Furthermore,
roles
structure-performance
relationships
these
electromagnetic
shielding,
flexible
sensors,
energy
storage
devices
systematically
summarized.
Finally,
obstacles
prospective
pertaining
thoroughly
scrutinized
deliberated
upon.
is
expected
provide
basic
guidance
researchers
boost
popularity
applications
useful
references
design
state-of-the-art
LMs.
Chemical Reviews,
Год журнала:
2024,
Номер
124(17), С. 10112 - 10191
Опубликована: Авг. 27, 2024
Two-dimensional
(2D)
transition
metal
dichalcogenide
(TMD)
heterostructures
have
attracted
a
lot
of
attention
due
to
their
rich
material
diversity
and
stack
geometry,
precise
controllability
structure
properties,
potential
practical
applications.
These
not
only
overcome
the
inherent
limitations
individual
materials
but
also
enable
realization
new
properties
through
appropriate
combinations,
establishing
platform
explore
physical
chemical
at
micro-nano-pico
scales.
In
this
review,
we
systematically
summarize
latest
research
progress
in
synthesis,
modulation,
application
2D
TMD
heterostructures.
We
first
introduce
techniques
for
fabricating
heterostructures,
examining
rationale,
mechanisms,
advantages,
disadvantages
each
strategy.
Furthermore,
emphasize
importance
characteristic
modulation
discuss
some
approaches
achieve
novel
functionalities.
Then,
representative
applications
Finally,
highlight
challenges
future
perspectives
synthesis
device
fabrication
provide
feasible
solutions.
Advanced Materials,
Год журнала:
2022,
Номер
35(21)
Опубликована: Ноя. 5, 2022
Abstract
2D
metal
oxides
have
aroused
increasing
attention
in
the
field
of
electronics
and
optoelectronics
due
to
their
intriguing
physical
properties.
In
this
review,
an
overview
recent
advances
on
synthesis
electronic
applications
is
presented.
First,
tunable
properties
that
relate
structure
(various
oxidation‐state
forms,
polymorphism,
etc.),
crystallinity
defects
(anisotropy,
point
defects,
grain
boundary),
thickness
(quantum
confinement
effect,
interfacial
etc.)
are
discussed.
Then,
advanced
methods
for
besides
mechanical
exfoliation
introduced
classified
into
solution
process,
vapor‐phase
deposition,
native
oxidation
a
source.
Later,
various
roles
widespread
applications,
i.e.,
transistors,
inverters,
photodetectors,
piezotronics,
memristors,
potential
(solar
cell,
spintronics,
superconducting
devices)
Finally,
outlook
existing
challenges
future
opportunities
proposed.
Advanced Materials,
Год журнала:
2023,
Номер
35(52)
Опубликована: Июль 7, 2023
Abstract
Liquid
metals
and
their
derivatives
provide
several
opportunities
for
fundamental
practical
exploration
worldwide.
However,
the
increasing
number
of
studies
shortage
desirable
materials
to
fulfill
different
needs
also
pose
serious
challenges.
Herein,
address
this
issue,
a
generalized
theoretical
frame
that
is
termed
as
“Liquid
Metal
Combinatorics”
(LMC)
systematically
presented,
summarizes
promising
candidate
technical
routes
toward
new
generation
material
discovery.
The
major
categories
LMC
are
defined,
eight
representative
methods
manufacturing
advanced
outlined.
It
illustrated
abundant
targeted
can
be
efficiently
designed
fabricated
via
through
deep
physical
combinations,
chemical
reactions,
or
both
among
main
bodies
liquid
metals,
surface
chemicals,
precipitated
ions,
other
materials.
This
represents
large
class
powerful,
reliable,
modular
innovating
general
achieved
combinatorial
not
only
maintained
typical
characteristics
but
displayed
distinct
tenability.
Furthermore,
fabrication
strategies,
wide
extensibility,
pivotal
applications
classified.
Finally,
by
interpreting
developmental
trends
in
area,
perspective
on
provided,
which
warrants
its
future
society.
Abstract
Room‐temperature
gallium‐based
liquid
metals
(RT‐GaLMs)
have
garnered
significant
interest
recently
owing
to
their
extraordinary
combination
of
fluidity,
conductivity,
stretchability,
self‐healing
performance,
and
biocompatibility.
They
are
ideal
materials
for
the
manufacture
flexible
electronics.
By
changing
composition
oxidation
RT‐GaLMs,
physicochemical
characteristics
metal
can
be
adjusted,
especially
regulation
rheological,
wetting,
adhesion
properties.
This
review
highlights
advancements
in
used
Meanwhile
related
RT‐GaLMs
underlying
principles
governing
processing
applications
electronics
elucidated.
Finally,
diverse
circuits,
sensors,
energy
harvesting
devices,
epidermal
electronics,
explored.
Additionally,
challenges
hindering
progress
discussed,
while
proposing
future
research
directions
potential
this
emerging
field.
presenting
a
concise
critical
analysis,
paper
contributes
advancement
as
an
advanced
material
applicable
new
generation
ACS Nano,
Год журнала:
2023,
Номер
17(11), С. 9870 - 9905
Опубликована: Май 31, 2023
Despite
over
a
decade
of
intense
research
efforts,
the
full
potential
two-dimensional
transition-metal
dichalcogenides
continues
to
be
limited
by
major
challenges.
The
lack
compatible
and
scalable
dielectric
materials
integration
techniques
restrict
device
performances
their
commercial
applications.
Conventional
for
bulk
semiconductors
are
difficult
adapt
atomically
thin
materials.
This
review
provides
brief
introduction
into
various
common
emerging
synthesis
discusses
applicability
2D
transition
metal
dichalcogenides.
Dielectric
applications
is
reviewed
in
subsequent
sections
including
nanoelectronics,
optoelectronics,
flexible
electronics,
valleytronics,
biosensing,
quantum
information
processing,
sensing.
For
each
application,
we
introduce
basic
working
principles,
discuss
specific
requirements,
current
progress,
present
key
challenges,
offer
insights
future
prospects
opportunities.
Advanced Functional Materials,
Год журнала:
2024,
Номер
34(31)
Опубликована: Март 22, 2024
Abstract
Wearable
and
self‐healing
soft
electronics
have
led
to
a
significant
emphasis
on
their
potential
in
creating
versatile,
conformable,
sustainable
electronic
modules.
Among
conductive
additives,
Liquid
metals
(LMs),
combining
both
solid
liquid
characteristics,
gained
widespread
attention
due
versatile
physical,
chemical,
electrical
properties
as
well
capability,
biocompatibility,
recyclability.
The
fluidity
of
LMs
facilitates
adaptability
various
experimental
conditions
components
for
specific
applications.
Moreover,
the
oxide
shell
exhibits
strong
compatibility
with
surface
functionalization
polymerization
processes,
enhancing
development
reliable
composite
materials.
Herein,
an
in‐depth
analysis
fundamental
characteristics
while
addressing
current
drawbacks,
such
unpredictable
reactivity
poor
stability,
is
presented.
To
harness
advantages
LMs,
integration
extensively
discussed
polymeric
materials
through
grafting
strategies,
leading
macromolecular
composites
exceptional
softness,
solubility,
functionalization,
versatility.
Furthermore,
applications
within
LM‐elastomer
composites,
particularly
focusing
relevance
fields
flexible
electronics,
are
investigated.
Finally,
LMs'
future
prospects
emphasized
by
highlighting
polymers,
thereby
providing
pathways
major
breakthroughs
based
devices.
