Biosensors and Bioelectronics X,
Journal Year:
2024,
Volume and Issue:
17, P. 100460 - 100460
Published: March 7, 2024
Carbon
dots
(CDs)
are
the
most
promising
nanomaterials
of
zero-dimensional
nanoparticle
materials
because
they
have
strong
fluorescence
properties,
good
photoluminescence
conversion,
stability,
and
inter-charge
transfer
performance.
CDs
also
advantages
biocompatibility,
low
toxicity,
hydrophilic
properties.
generally
synthesized
through
two
approaches:
top-down
bottom-up.
Green
synthesis
environmentally
friendly
with
easy
simple
procedures
has
become
an
exciting
concern
lately
in
future.
In
addition
to
green
synthesis,
carbon
sources
such
as
biomass
waste
potential.
The
make
them
applicable
food
sensing.
Fluorescent
resonance
energy
transfer,
photoinduced
electron
internal
screening
effect
mechanisms
enable
precise
detection
heavy
metal
ions,
additives,
foodborne
pathogens,
nutrient
composition,
pesticide
residues,
veterinary
drug
residues.
This
review
provides
a
brief
overview
future
perspectives
on
their
applications
for
more
advanced
sensing
safety
analysis.
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: May 30, 2024
Abstract
This
state‐of‐the‐art
review
is
geared
toward
elucidating
the
molecular
understanding
of
carbon‐based
flame‐retardant
mechanisms
for
polymers
via
holistic
characterization
combining
detailed
analytical
assessments
and
computational
material
science.
The
use
flame
retardants,
which
include
graphite,
graphene,
carbon
nanotubes
(CNTs),
dots
(CDs),
fullerenes,
in
their
pure
functionalized
forms
are
initially
reviewed
to
evaluate
retardancy
performance
determine
elevation
flammability
resistance
on
various
types
polymers.
early
transition
metal
carbides
such
as
MXenes,
regarded
next‐generation
discussed
with
respect
superior
multifunctional
applications.
At
core
this
utilization
cutting‐edge
dynamics
(MD)
simulations
sets
a
precedence
an
alternative
bottom‐up
approach
fill
knowledge
gap
through
insights
into
thermal
resisting
process
formation
carbonaceous
char
intermediate
chemical
reactions
offered
by
unique
bonding
arrangements
microscopic
in‐situ
architectures.
Combining
MD
experimental
characterization,
more
targeted
development
well
systematic
synthesis
framework
can
be
realized
future
advanced
RSC Advances,
Journal Year:
2023,
Volume and Issue:
13(40), P. 28230 - 28249
Published: Jan. 1, 2023
Over
recent
years,
carbon
quantum
dots
(CQDs)
have
advanced
significantly
and
gained
substantial
attention
for
their
numerous
benefits.
These
benefits
include
simple
preparation,
cost-effectiveness,
small
size,
biocompatibility,
bright
luminescence,
low
cytotoxicity.
As
a
result,
they
hold
great
potential
various
fields,
including
bioimaging.
A
fascinating
aspect
of
synthesizing
CQDs
is
that
it
can
be
accomplished
by
using
biomass
waste
as
the
precursor.
Furthermore,
synthesis
approach
allows
control
over
physicochemical
characteristics.
This
paper
unequivocally
examines
production
from
indispensable
application
in
The
process
involves
one-pot
hydrothermal
method
utilizes
source,
eliminating
need
expensive
toxic
reagents.
resulting
exhibit
tunable
fluorescence
excellent
making
them
suitable
bioimaging
applications.
successful
biomass-derived
has
been
demonstrated
through
biological
evaluation
studies
cell
lines,
HeLa,
Cardiomyocyte,
iPS,
well
medaka
fish
eggs
larvae.
Using
precursor
provides
an
environmentally
friendly
sustainable
alternative
to
traditional
methods.
applications
