Advanced Materials,
Journal Year:
2021,
Volume and Issue:
33(9)
Published: Jan. 14, 2021
Abstract
2D
metal
oxides
(2DMOs)
have
been
widely
applied
in
the
fields
of
electronic,
magnetic,
optical,
and
catalytic
materials,
owing
to
their
rich
surface
chemistry
unique
electronic
structures.
However,
further
development
faces
challenges
such
as
difficulty
fabricating
2DMOs
with
unstable
induced
by
strong
polarizability,
or
high
cost
limited
yield
fabrication
process.
Recently,
liquid
metals
shown
great
potential
2DMOs.
The
native
oxide
skin
formed
on
can
be
considered
a
perfect
planar
material.
Due
solubility,
fluidity,
reactivity
metals,
they
act
solvent,
reactant,
interface
Moreover,
undergo
liquid–solid
phase
transition,
enabling
them
symmetric
matched
substrate
for
growing
high‐quality
An
insightful
survey
recent
progress
this
research
direction
is
presented.
features
including
good
chemical
reactivity,
weak
force,
transitions
are
introduced
detail.
Furthermore,
strategies
virtue
these
summarized
comprehensively.
Finally,
current
prospects
regarding
future
via
highlighted.
ACS Applied Materials & Interfaces,
Journal Year:
2020,
Volume and Issue:
12(28), P. 31037 - 31053
Published: June 25, 2020
Paper,
as
a
flexible,
low-cost,
lightweight,
tailorable,
environmental-friendly,
degradable,
and
renewable
material,
is
emerging
in
electronic
devices.
Especially,
many
kinds
of
paper-based
(PB)
sensors
have
been
reported
for
wearable
applications
recent
years.
Among
them,
the
PB
gas,
humidity,
strain
are
widely
studied
monitoring
from
human
body
environment.
However,
often
coexist
interact,
paper
itself
hydrophilic
resulting
that
it
still
challenging
to
develop
high-performance
specialized
detections.
Therefore,
necessary
summarize
discuss
them
systematically.
In
this
review,
we
focus
on
summarizing
state-of-art
studies
sensors.
Specifically,
fabrications
(electrodes
sensing
materials)
summarized
discussed.
The
current
challenges
potential
trends
detections
also
outlined.
This
review
not
only
can
help
readers
understand
development
status
but
helpful
find
out
solve
problems
field
through
comparative
reading.
Nano-Micro Letters,
Journal Year:
2021,
Volume and Issue:
13(1)
Published: March 6, 2021
Abstract
Neuromorphic
computing
simulates
the
operation
of
biological
brain
function
for
information
processing
and
can
potentially
solve
bottleneck
von
Neumann
architecture.
This
is
realized
based
on
memristive
hardware
neural
networks
in
which
synaptic
devices
that
mimic
synapses
are
primary
units.
Mimicking
functions
with
these
critical
neuromorphic
systems.
In
last
decade,
electrical
optical
signals
have
been
incorporated
into
promoted
simulation
various
functions.
this
review,
discussed
by
categorizing
them
electrically
stimulated,
optically
photoelectric
synergetic
stimulation
signals.
The
working
mechanisms
analyzed
detail.
followed
a
discussion
progress
mimicking
addition,
existing
application
scenarios
outlined.
Furthermore,
performances
future
development
could
be
significant
building
efficient
systems
prospected.
Small,
Journal Year:
2022,
Volume and Issue:
18(25)
Published: May 15, 2022
This
article
reviews
recent
fabrication
methods
for
surface-enhanced
Raman
spectroscopy
(SERS)
substrates
with
a
focus
on
advanced
nanoarchitecture
based
noble
metals
special
nanospaces
(round
tips,
gaps,
and
porous
spaces),
nanolayered
2D
materials,
including
hybridization
metallic
nanostructures
(NSs),
the
contemporary
repertoire
of
nanoarchitecturing
organic
molecules.
The
use
SERS
multidisciplinary
applications
has
been
extensively
investigated
because
considerably
enhanced
signal
intensity
enables
detection
very
small
number
molecules
molecular
fingerprints.
Nanoarchitecture
strategies
design
new
NSs
play
vital
role
in
developing
substrates.
In
this
review,
achievements
respect
to
morphology
are
discussed,
future
directions
outlined
development
available
reproducible
preparation
well-controlled
nanoarchitecture.
Nanolayered
materials
proposed
as
an
alternative
metals.
modern
solutions
existing
limitations
their
described
together
state-of-the-art
bio/environmental
sensing
using
materials-based
composites.
To
complement
toolbox
plasmonic
inorganic
NSs,
is
improve
stability
selectivity
by
hybridizing
or
large
Green Chemistry,
Journal Year:
2021,
Volume and Issue:
23(8), P. 2834 - 2867
Published: Jan. 1, 2021
This
review
summarizes
recent
advances
in
developing
sputtered
nanomaterials
as
catalysts
for
energy
electrocatalysis.
In-depth
insights
into
architecture/compositional
design,
synthesis,
mechanism,
and
performance
are
provided.
Energy & Fuels,
Journal Year:
2021,
Volume and Issue:
35(24), P. 19881 - 19900
Published: Nov. 24, 2021
Energy
storage
and
production
is
one
of
the
significant
issues
21st
century,
motivating
search
for
new
materials
energy
devices.
Supercapacitors
(SCs)
play
a
prominent
role
among
class
devices
conversion
systems
since
they
provide
greater
specific
capacitance,
high
power
density,
longer
life
span,
fast
charge–discharge
rate,
excellent
circulation
feature,
low
cost,
are
safe
to
use.
The
selection
electrode
material
has
great
importance
in
performance
supercapacitor.
Two-dimensional
(2D)
layered
nanomaterials
gained
much
interest
fabrication
due
their
unique
physicochemical
properties.
current
review
explores
synthesis
application
novel
2D
materials,
such
as
graphene,
MXene,
transition
metal
dichalcogenides
(TMDs),
hexagonal
boron
nitride
(h-BN),
carbon
nitrides,
oxides/hydroxides,
black
phosphorus
(BP),
supercapacitor
electrodes
detail.
ACS Biomaterials Science & Engineering,
Journal Year:
2021,
Volume and Issue:
7(6), P. 1900 - 1913
Published: April 14, 2021
MXenes
endowed
with
several
attractive
physicochemical
attributes,
namely,
specific
large
surface
area,
significant
electrical
conductivity,
magnetism,
low
toxicity,
luminescence,
and
high
biocompatibility,
have
been
considered
as
promising
candidates
for
cancer
therapy
theranostics.
These
two-dimensional
(2D)
nanostructures
photothermal,
chemotherapeutic
synergistic,
photodynamic
effects
shown
potential
decidedly
effectual
noninvasive
anticancer
treatments.
They
explored
photothermal/chemo-photothermal
(PTT)
targeted
drug
delivery.
Remarkably,
their
unique
optical
properties
employed
bioimaging
biosensing,
excellent
light-to-heat
transition
competence
renders
them
an
ideal
biocompatible
proficient
nanoscaled
agent
PTT
appliances.
However,
important
challenging
issues
still
linger
regarding
stability
in
physiological
environments,
sustained/controlled
release
of
drugs,
biodegradability
that
need
to
be
addressed.
This
Perspective
emphasizes
the
latest
advancements
MXene-based
materials
domain
therapy/diagnosis,
a
focus
on
current
trends,
challenges,
future
perspectives.
Chemical Reviews,
Journal Year:
2023,
Volume and Issue:
124(2), P. 318 - 419
Published: Dec. 6, 2023
Flexible
electronics
have
recently
gained
considerable
attention
due
to
their
potential
provide
new
and
innovative
solutions
a
wide
range
of
challenges
in
various
electronic
fields.
These
require
specific
material
properties
performance
because
they
need
be
integrated
into
variety
surfaces
or
folded
rolled
for
newly
formatted
electronics.
Two-dimensional
(2D)
materials
emerged
as
promising
candidates
flexible
unique
mechanical,
electrical,
optical
properties,
well
compatibility
with
other
materials,
enabling
the
creation
devices.
This
article
provides
comprehensive
review
progress
made
developing
devices
using
2D
materials.
In
addition,
it
highlights
key
aspects
scalable
production,
device
fabrication
processes
applications,
along
important
examples
demonstrations
that
achieved
breakthroughs
wearable
applications.
Finally,
we
discuss
opportunities,
current
challenges,
solutions,
future
investigative
directions
about
this
field.
