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
ACS symposium series,
Journal Year:
2024,
Volume and Issue:
unknown, P. 3 - 42
Published: April 17, 2024
Carbon
quantum
dots
(CQDs)
belong
to
a
remarkable
category
of
nanocarbon
materials
with
unique
properties
because
their
nanoscale
dimensions.
These
nanocarbons
have
earned
significant
attention
exceptional
and
advantages,
making
them
versatile
in
wide
range
applications.
This
chapter
delves
into
the
fundamental
principles
underlying
CQDs,
along
synthetic
procedures
outstanding
characteristics.
characteristics
empower
precise
tuning
optical
electronic
properties,
setting
stage
for
diverse
Their
photoluminescence—combined
biocompatibility,
water
solubility,
various
surface
functional
groups—position
CQDs
as
crucial
components
fields
nanotechnology,
science,
medicine.
As
result,
this
highlights
broad
spectrum
applications
where
made
contributions
21st
century.
Nanoscale Advances,
Journal Year:
2024,
Volume and Issue:
7(1), P. 42 - 59
Published: Nov. 22, 2024
The
study
on
the
synthesis
of
carbon
dots,
sensing
mechanisms,
conditions
associated
with
glucose
imbalance,
and
potential
applications
as
promising
materials
for
sensors.
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
