ACS Omega,
Год журнала:
2021,
Номер
6(50), С. 34954 - 34966
Опубликована: Дек. 8, 2021
In
the
current
study,
a
simple,
environmentally
friendly,
and
cost-effective
reduced
graphene
oxide-gold
nanoparticle
(rGO-AuNP)
nanocomposite
was
successfully
phytosynthesized
using
aqueous
leaf
extract
of
common
weed
found
on
Nile
banks,
Persicaria
salicifolia,
for
first
time.
The
phytosynthesis
rGO-AuNPs
confirmed
via
color
transformation
from
brown
to
black
as
well
throughvarious
techniques
such
transmission
electron
microscopy
(TEM)
Raman
spectroscopy.
Two
UV-vis
peaks
at
275
530
nm
were
observed
with
typical
particle
size
mostly
spherical
AuNPs
15-20
nm.
However,
other
shapes
occasionally
detected
including
rods,
triangles,
rhomboids.
Existing
phytoconstituents
flavonoids
glycosides
in
plant
suggested
be
responsible
rGO-AuNPs.
excellent
catalytic
efficacy
against
MB
degradation
confirmed,
high
antibacterial
efficiency
Escherichia
coli
Klebsiella
pneumonia
also
confirmed.
Promising
antioxidant
performance
proved.
Furthermore,
it
concluded
that
acquired
higher
than
synthesized
same
all
studied
applications.
In
order
to
achieve
excellent
electromagnetic
wave
(EMW)
absorption
properties,
the
microstructure
design
and
component
control
of
absorber
are
critical.
this
study,
three
different
structures
made
Mo2
C/C
hollow
spheres
prepared
their
microwave
behavior
is
investigated.
The
double-shell
consisting
an
outer
thin
shell
inner
rough
thick
with
multiple
EMW
loss
mechanisms
exhibit
good
properties.
further
improve
MoC1-x
/C
crystalline
phases
molybdenum
carbide
optimize
capability
materials.
Finally,
α-phase
have
best
When
filling
20
wt.%,
minimum
reflection
at
1.8
mm
-50.55
dB
effective
bandwidth
2
5.36
GHz,
which
expected
be
a
characteristics
"thin,
light,
wide,
strong".
ACS Omega,
Год журнала:
2022,
Номер
7(3), С. 3121 - 3133
Опубликована: Янв. 11, 2022
In
the
current
study,
a
facile,
rapid,
and
ecologically
safe
photosynthesis
of
gold
nanoparticles
(AuNPs)
that
remained
stable
for
3
months
is
reported
to
advocate
main
aspects
green
chemistry,
such
as
safer
solvents
auxiliaries,
use
renewable
feedstock.
Zi-AuNPs
were
phytosynthesized
by
aqueous
extract
Ziziphus
spina-christi
leaves,
numerous
techniques
employed
their
characterization.
The
results
demonstrated
successful
phytofabrication
crystalline
AuNPs
with
brownish-black
color,
spherical
size
between
0
10
nm,
plasmon
peak
at
540
surface
charge
-25.7
mV.
showed
an
effective
photodegradation
efficiency
(81.14%)
against
malachite
good
recycling
capacity
69.2%
after
five
cycles
regeneration.
cytotoxicity
test
3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium
bromide
(MTT)
assay
signified
high
anticancer
both
Z.
human
breast
cancer
cells
(MCF7
cell
line)
IC50's
48
40.25
μg/mL,
respectively.
Highly
efficient
antioxidant
capabilities
proven
2,2-diphenyl-1-picrylhydrazyl
(DPPH)
removal
percentages
67.5%
92.34%
extract.
Nano-Micro Letters,
Год журнала:
2023,
Номер
15(1)
Опубликована: Янв. 18, 2023
Abstract
As
an
outstanding
representative
of
layered
materials,
molybdenum
disulfide
(MoS
2
)
has
excellent
physical
properties,
such
as
high
carrier
mobility,
stability,
and
abundance
on
earth.
Moreover,
its
reasonable
band
gap
microelectronic
compatible
fabrication
characteristics
makes
it
the
most
promising
candidate
in
future
advanced
integrated
circuits
logical
electronics,
flexible
focal-plane
photodetector.
However,
to
realize
all-aspects
application
MoS
,
research
obtaining
high-quality
large-area
films
need
be
continuously
explored
promote
industrialization.
Although
grain
size
already
improved
from
several
micrometers
sub-millimeters,
growth
wafer-scale
is
still
great
challenge.
Herein,
this
review
mainly
focuses
evolution
by
including
chemical
vapor
deposition,
metal–organic
thermal
conversion
technology
methods.
The
state-of-the-art
optimization
mechanism,
nucleation,
orientation,
grain,
defect
engineering,
systematically
summarized.
Then,
summarizes
a
transistor,
inverter,
photodetectors.
Finally,
current
challenges
perspectives
are
outlined
for
.
Advanced Functional Materials,
Год журнала:
2023,
Номер
33(32)
Опубликована: Апрель 29, 2023
Abstract
Lithium–sulfur
batteries
(LSBs)
are
considered
as
one
of
the
best
candidates
for
next
generation
high‐energy‐density
storage
devices
owing
to
their
superior
theoretical
energy
density,
high
specific
capacity,
and
sufficient
sulfur
reservoirs.
However,
shuttle
effect
soluble
polysulfides
sluggish
LiPSs
redox
kinetics
restrict
further
application
LSBs.
The
can
be
efficiently
alleviated
conversion
accelerated
by
designing
optimal
transition
metal
compounds
(TMCs)
multifunctional
catalyst
materials.
Herein,
recent
advances
about
TMCs
in
LSBs
systematically
summarized
analyzed.
First
all,
intrinsic
structural
characteristics
relevant
on
works
adsorption
energies
studies
described
detail.
Second,
bonding
manners
properties
analyzed
density
functional
theory
(DFT)‐guided
calculations,
focusing
diffusion
behavior
between
LiPSs.
Furthermore,
mechanism
reaction
is
studied
from
aspects,
thus
developing
continuous
dynamic
analysis
“adsorption–diffusion–conversion”
toward
Eventually,
this
study
particularly
highlights
importance
modification
engineering
provides
a
forward‐looking
overview
its
prospects
introduction
previous
advanced
Abstract
Bioelectronics
are
powerful
tools
for
monitoring
and
stimulating
biological
biochemical
processes,
with
applications
ranging
from
neural
interface
simulation
to
biosensing.
The
increasing
demand
bioelectronics
has
greatly
promoted
the
development
of
new
nanomaterials
as
detection
platforms.
Recently,
owing
their
ultrathin
structures
excellent
physicochemical
properties,
emerging
two‐dimensional
(2D)
materials
have
become
one
most
researched
areas
in
fields
biosensors.
In
this
timely
review,
representative
2D
design
nanostructures
engineering
high‐performance
bioelectronic
biosensing
devices
presented.
We
focus
on
structural
optimization
material‐based
composites
achieve
better
regulation
enhancing
performance
bioelectronics.
Subsequently,
recent
developments
bioelectronics,
such
simulation,
biomolecular/biomarker
detection,
skin
sensors
discussed
thoroughly.
Finally,
we
provide
conclusive
views
current
challenges
future
perspectives
utilizing
This
review
will
offer
important
guidance
designing
applying
thus
further
promoting
prospects
a
wide
biomedical
field.
image
Chemical Reviews,
Год журнала:
2023,
Номер
123(23), С. 13489 - 13692
Опубликована: Ноя. 14, 2023
As
a
key
structural
parameter,
phase
depicts
the
arrangement
of
atoms
in
materials.
Normally,
nanomaterial
exists
its
thermodynamically
stable
crystal
phase.
With
development
nanotechnology,
nanomaterials
with
unconventional
phases,
which
rarely
exist
their
bulk
counterparts,
or
amorphous
have
been
prepared
using
carefully
controlled
reaction
conditions.
Together
these
methods
are
beginning
to
enable
engineering
(PEN),
i.e.,
synthesis
phases
and
transformation
between
different
obtain
desired
properties
functions.
This
Review
summarizes
research
progress
field
PEN.
First,
we
present
representative
strategies
for
direct
modulation
diverse
kinds
nanomaterials.
We
cover
ranging
from
metal
nanostructures
such
as
Au,
Ag,
Cu,
Pd,
Ru,
alloys;
oxides,
borides,
carbides;
transition
dichalcogenides
(TMDs)
2D
layered
review
growth
wet-chemical
reduction
seed-mediated
epitaxial
chemical
vapor
deposition
(CVD),
high
pressure
transformation,
electron
ion-beam
irradiation.
After
that,
summarize
significant
influence
on
various
unconventional-phase
also
discuss
potential
applications
developed
areas
including
catalysis,
electrochemical
energy
storage
(batteries
supercapacitors),
solar
cells,
optoelectronics,
sensing.
Finally,
existing
challenges
future
directions
Chemical Engineering Journal,
Год журнала:
2023,
Номер
472, С. 144913 - 144913
Опубликована: Июль 19, 2023
Supercapacitors,
which
are
essential
for
addressing
modern
energy
challenges,
possess
outstanding
storage
capabilities
without
requiring
manual
maintenance.
However,
their
low
density
and
capacity
limit
applicability
electrode
materials.
Recently,
two-dimensional
materials
(2D),
particularly
2D
transition
metal
carbonitrides
(MXenes)
have
attracted
considerable
interest
developing
devices
because
of
large
specific
surface
area
fast
ion-transport
pathways.
MXenes
mainly
comprise
a
(M)
layer,
carbon
and/or
nitrogen
(X)
active
functional
groups
exterior
to
the
layer.
Metallic
properties
M
layer
offer
excellent
pseudocapacitance
characteristics,
while
X
is
characterized
by
abundant
sites
conductivity
similar
that
graphene.
Compared
with
conventional
materials,
existence
various
on
endows
them
stronger
hydrophilicity
higher
wettability
in
aqueous
electrolytes,
which,
combined
diverse
frame
structures
group
combinations,
significantly
augment
devices.
Therefore,
it
necessary
summarize
analyze
research
results
MXenses.
This
review
addresses
applications
supercapacitors
along
current
challenges
solutions
including
intercalation,
doping,
modification
methods,
heterogeneous
structures.
Finally,
prominent
contemporary
trends
comparatively
discussed
promote
development
this
field
near
future.
Advanced Functional Materials,
Год журнала:
2024,
Номер
unknown
Опубликована: Ноя. 9, 2024
Abstract
Microwave
absorbing
materials
play
an
increasingly
important
role
in
modern
electronic
warfare
technology
for
enhancing
electromagnetic
compatibility
and
suppressing
interference.
High‐entropy
ceramics
(HECs)
possess
extraordinary
physical
chemical
properties,
more
importantly,
the
high
tunability
of
multi‐component
HECs
has
brought
new
opportunities
to
microwave
materials.
Rich
crystallographic
distortions
occupancies
enable
have
highly
efficient
absorption
excellent
mechanical
thermal
stability.
Therefore,
structural
advantages
are
integrated
from
comprehensive
perspectives,
emphasizing
on
dielectric
magnetic
properties
phenomenon.
Strategies
proposed
improve
capacity
HECs,
including
composition
optimization,
microstructure
engineering,
post‐treatment
technology.
Finally,
problems
obstacles
associated
with
high‐entropy
(HEMs)
research
discussed.
The
innovative
design
concepts
highlighted.
