Biochar,
Journal Year:
2024,
Volume and Issue:
6(1)
Published: Jan. 2, 2024
Abstract
The
increase
in
antimicrobial
resistance
(AMR)
poses
a
massive
threat
to
world
health,
necessitating
the
urgent
development
of
alternative
growth
control
techniques.
Due
their
specific
physical
and
chemical
properties,
nanomaterials,
particularly
carbon-based
have
emerged
as
attractive
candidates
for
applications,
however,
reviews
are
lacking.
This
comprehensive
review
aims
bridge
existing
knowledge
gaps
surrounding
mechanism
significance
nanobiochar
(NBC)
carbon
nanostructures
field
applications.
Notably,
NBC,
which
is
derived
from
biochar,
exhibits
promising
potential
an
environmentally-friendly
substance
with
properties.
Its
strong
adsorption
capabilities
enable
removal
immobilization
pathogens
pollutants
soil
water
also
exhibit
properties
combat
harmful
pathogens.
In
addition
dots
(CDs)
graphene
oxide
(GO)
shown
excellent
These
nanomaterials
find
applications
agriculture
phytopathogen
post-harvest
disease
management,
well
medicine
nanotheranostics
food
industry
extending
shelf
life
eco-friendly
chemicals
antibiotics.
However,
long-term
toxicity
these
nanoparticles
humans
environment
needs
further
investigation,
considering
influence
different
physiochemical
characteristics
on
nanotoxicity.
Therefore,
continued
exploration
this
area
will
pave
way
future
research
safe
deployment
strategies
combating
microbial
threats.
Graphical
New Journal of Chemistry,
Journal Year:
2022,
Volume and Issue:
46(30), P. 14287 - 14308
Published: Jan. 1, 2022
Fluorescent
carbon
dots
(CDs)
attract
huge
attention
in
analytical
and
bioanalytical
applications
due
to
their
high
selectivity
towards
target
analytes,
specificity,
photostability,
quantum
yield.
Beilstein Journal of Nanotechnology,
Journal Year:
2022,
Volume and Issue:
13, P. 1068 - 1107
Published: Oct. 5, 2022
Carbon
dots
(CDs)
show
extensive
potential
in
various
fields
such
as
sensing,
bioimaging,
catalysis,
medicine,
optoelectronics,
and
drug
delivery
due
to
their
unique
properties,
that
is,
low
cytotoxicity,
cytocompatibility,
water-solubility,
multicolor
wavelength
tuned
emission,
photo-stability,
easy
modification,
strong
chemical
inertness,
etc.
This
review
article
especially
focuses
on
the
recent
advancement
(2015–2022)
green
synthesis
of
CDs,
application
metal
ions
sensing
microbial
detection,
viability
studies
well
applications
pathogenic
control
plant
growth
promotion.
Advances in Colloid and Interface Science,
Journal Year:
2023,
Volume and Issue:
321, P. 103020 - 103020
Published: Oct. 12, 2023
Carbon
dots
(CDs)
are
a
recent
addition
to
the
nanocarbon
family,
encompassing
both
crystalline
and
amorphous
phases.
They
have
sparked
significant
research
interest
due
their
unique
electrical
optical
properties,
remarkable
biocompatibility,
outstanding
mechanical
characteristics,
customizable
surface
chemistry,
negligible
cytotoxicity.
Their
current
applications
mainly
limited
flexible
photonic
biomedical
devices,
but
they
also
garnered
attention
for
potential
use
in
intelligent
packaging.
The
conversion
of
food
waste
into
CDs
further
contributes
concept
circular
economy.
It
provides
comprehensive
overview
emerging
green
technologies,
energy-saving
reactions,
cost-effective
starting
materials
involved
synthesis
CDs.
highlights
properties
biomass-derived
CDs,
focusing
on
structural
performance,
cellular
toxicity,
functional
characteristics.
application
industry,
including
packaging,
is
summarized
concise
manner.
This
paper
sheds
light
challenges
prospects
utilizing
packaging
industry.
aims
provide
researchers
with
roadmap
tailor
suit
specific
particularly
International Journal of Molecular Sciences,
Journal Year:
2022,
Volume and Issue:
23(8), P. 4310 - 4310
Published: April 13, 2022
Rapid
population
and
economic
growth,
excessive
use
of
fossil
fuels,
climate
change
have
contributed
to
a
serious
turn
towards
environmental
management
sustainability.
The
agricultural
sector
is
big
contributor
(lignocellulosic)
waste,
which
accumulates
in
landfills
ultimately
gets
burned,
polluting
the
environment.
In
response
current
climate-change
crisis,
policymakers
researchers
are,
respectively,
encouraging
seeking
ways
creating
value-added
products
from
generated
waste.
Recently,
waste
has
been
regularly
appearing
articles
communicating
production
range
carbon
polymeric
materials
worldwide.
extraction
cellulose
nanocrystals
(CNCs)
quantum
dots
(CQDs)
biomass
partially
occupies
some
waste-recycling
space.
Further,
new
this
promise
be
effective
competitive
emerging
markets.
This
short
review
summarizes
recent
work
area
CNCs
CQDs
synthesised
Synthesis
methods,
properties,
prospective
application
these
are
summarized.
Current
challenges
benefits
using
also
discussed.
Natural Products and Bioprospecting,
Journal Year:
2023,
Volume and Issue:
13(1)
Published: Nov. 13, 2023
Abstract
Natural
resources
are
practically
infinitely
abundant
in
nature,
which
stimulates
scientists
to
create
new
materials
with
inventive
uses
and
minimal
environmental
impact.
Due
the
various
benefits
of
natural
carbon
dots
(NCDs)
from
them
has
received
a
lot
attention
recently.
products-derived
have
recently
emerged
as
highly
promising
class
nanomaterials,
showcasing
exceptional
properties
eco-friendly
make
appealing
for
diverse
applications
fields
such
biomedical,
sensing
monitoring,
energy
storage
conversion,
optoelectronics
photonics,
agriculture,
quantum
computing,
nanomedicine
cancer
therapy.
Characterization
techniques
Photoinduced
electron
transfer,
Aggregation-Induced-Emission
(AIE),
Absorbance,
Fluorescence
UV–Vis
NIR
Regions
play
crucial
roles
understanding
structural
optical
Carbon
(CDs).
The
photoluminescence
exhibited
by
CDs
derived
products
paved
way
tissue
engineering,
treatment,
bioimaging,
sensing,
drug
delivery,
photocatalysis,
remarkable
advancements
these
fields.
In
this
review,
we
summarized
synthesis
methods,
physical
properties,
applications,
challenges,
future
prospects
etc.
expanding
sector,
difficulties
NCD-based
research
will
also
be
explored.
Sensing and Bio-Sensing Research,
Journal Year:
2023,
Volume and Issue:
43, P. 100610 - 100610
Published: Nov. 28, 2023
The
demand
for
analysing
biological
molecules
such
as
dopamine
(DA),
ascorbic
acid
(AA),
and
uric
(UA)
is
growing
more
than
ever
in
applied
science
better
health
medicine.
Over
the
past
two
decades,
molecular
imprinted
polmers
(MIPs)
have
been
developed
synthetic
receptors
or
substitute
materials
antibodies
due
to
their
high
stability,
short
time
needed
electropolymerization,
specificity
towards
target
analyte.
However,
sensitivity
of
electrochemical
sensors
decreased
a
result
MIPs'
low
conductivity
lack
electrocatalytic
activity.
To
overcome
this
limitation,
nanomaterials
gold
nanoparticles
(AuNPs),
carbon
nanotubes
(CNTs),
graphene
(GR),
titanium
carbide
MXene
(Ti3C2Tx),
dots
(CDs),
molybdenum
diselenide
(MoSe2),
black
phosphorus
quantum
(BPQDs)
nanocomposites
employed
biosensing
transducers
construct
MIPs
based
on
biosensors
cost-effective
detection
with
specificity.
This
because
surface
area,
good
electrical
conductivity,
ease
functionalization
all
increase
MIP
targeted
molecules.
When
these
advantages
are
combined
those
methods,
rapid
response
time,
use,
cost,
miniature
ability,
nanomaterial-modified
electrodes
widely
preferred
tools
sensing
AA,
DA,
UA.
Herein,
review
provides
insight
into
recent
developments
application
molecularly
polymer
(MIP)
nanomaterial-based
detecting
molecules,
including
integration
has
led
an
unprecedented
impact
improving
limit
biomolecules,
indicating
great
potential
use
public
medical
care.
