Comprehensive Reviews in Food Science and Food Safety,
Journal Year:
2024,
Volume and Issue:
23(4)
Published: July 1, 2024
Abstract
Milk,
as
a
widely
consumed
nutrient‐rich
food,
is
crucial
for
bone
health,
growth,
and
overall
nutrition.
The
persistent
application
of
veterinary
drugs
controlling
diseases
heightening
milk
yield
has
imparted
substantial
repercussions
on
human
health
environmental
ecosystems.
Due
to
the
high
demand,
fresh
consumption,
complex
composition
milk,
potential
adverse
impacts
drug
residues,
advanced
greener
analytical
methods
are
necessitated.
Among
them,
functional
materials‐based
attract
wide
concerns.
magnetic
molecularly
imprinted
polymers
(MMIPs),
kind
typical
material,
possess
excellent
greenification
characteristics
potencies,
they
easily
integrated
into
various
detection
technologies,
which
have
offered
green
approaches
toward
analytes
such
in
milk.
Despite
their
increasing
applications
great
potential,
MMIPs’
use
dairy
matrices
remains
underexplored,
especially
regarding
ecological
sustainability.
This
work
reviews
recent
advances
synthesis
efficient
sorbents
extraction
followed
by
chromatographic
analysis.
uniqueness
effectiveness
MMIPs
real
samples
evaluated,
current
limitations
addressed,
opportunities
proposed.
show
promise
revolutionizing
procedures
detection,
aligning
with
goals
modern
food
production
systems.
Chemical Reviews,
Journal Year:
2019,
Volume and Issue:
119(6), P. 3510 - 3673
Published: March 4, 2019
In
the
last
few
decades,
pharmaceuticals,
credited
with
saving
millions
of
lives,
have
emerged
as
a
new
class
environmental
contaminant.
These
compounds
can
both
chronic
and
acute
harmful
effects
on
natural
flora
fauna.
The
presence
pharmaceutical
contaminants
in
ground
waters,
surface
waters
(lakes,
rivers,
streams),
sea
water,
wastewater
treatment
plants
(influents
effluents),
soils,
sludges
has
been
well
doccumented.
A
range
methods
including
oxidation,
photolysis,
UV-degradation,
nanofiltration,
reverse
osmosis,
adsorption
used
for
their
remediation
from
aqueous
systems.
Many
commercially
limited
by
toxic
sludge
generation,
incomplete
removal,
high
capital
operating
costs,
need
skilled
maintenance
personnel.
Adsorption
technologies
are
low-cost
alternative,
easily
developing
countries
where
there
is
dearth
advanced
technologies,
personnel,
available
capital,
appears
to
be
most
broadly
feasible
removal
method.
integrated
(WWTPs).
Herein,
we
reviewed
literature
(1990–2018)
illustrating
rising
contamination
concerns
efforts
emphasizing
adsorption.
Water Science & Technology Water Supply,
Journal Year:
2019,
Volume and Issue:
19(7), P. 1871 - 1884
Published: June 10, 2019
Abstract
A
new
concern
about
surface
water
quality
is
the
occurrence
of
emerging
contaminants
that
have
being
recognized
as
a
class
such
antibiotics,
hormones,
pesticides,
personal
care
products
and
pharmaceutical
products.
The
these
in
aquatic
environment
especially
serious
because
this
usually
source
for
drinking
treatment
plants
(DWTP).
This
review
provides
summary
analytical
methodology
(extraction
process,
chromatography
analysis,
detection
systems
ionization
source)
contaminant
analysis
waters
including
rivers,
lakes,
creeks
wetlands
their
analysis.
ACS Applied Materials & Interfaces,
Journal Year:
2020,
Volume and Issue:
12(7), P. 8351 - 8358
Published: Jan. 22, 2020
Using
flexible
structures
and
components
of
metal-organic
framework
(MOF)
materials,
we
designed
developed
an
artificial
nanozyme
with
dual
functions
a
catalyst
luminescent
sensor
specifically
for
the
determination
degradation
hormone
17β-estradiol
(E2)
its
derivatives
(E1,
E3,
EE2),
class
disruptors
strong
effect
on
human
endocrine
system.
This
composed
Tb3+
ion,
catalytic
coenzyme
factor
hemin,
light-harvesting
ligand
can
be
used
to
both
degrade
E2
like
natural
horseradish
peroxidase
(HRP)
sense
as
low
50
pM
by
luminescence.
The
catalyzes
decomposition
through
mechanism
active
hydroxyl
radicals
oxidative
high-valent
iron-oxo
intermediates.
prepared
is
pluripotent,
stable,
cheap
replace
widely
combination
enzyme
chromogenic
substrate.
present
strategy
constructing
enzymes
directly
from
functional
units
provides
new
way
design
development
smart,
multifunctional
enzymes.
Biosensors,
Journal Year:
2023,
Volume and Issue:
13(4), P. 491 - 491
Published: April 19, 2023
In
this
study,
a
screen-printed
electrode
(SPE)
modified
with
gold-nanoparticle-decorated
reduced
graphene
oxide-carbon
nanotubes
(rGO-AuNPs/CNT/SPE)
was
used
for
the
determination
of
estradiol
(E2).
The
AuNPs
were
produced
through
an
eco-friendly
method
utilising
plant
extract,
eliminating
need
severe
chemicals,
and
remove
requirements
sophisticated
fabrication
methods
tedious
procedures.
addition,
rGO-AuNP
serves
as
dispersant
CNT
to
improve
dispersion
stability
CNTs.
composite
material,
rGO-AuNPs/CNT,
underwent
characterisation
scanning
electron
microscopy
(SEM),
ultraviolet-visible
absorption
spectroscopy
(UV-vis),
Fourier-transform
infrared
(FTIR)
spectroscopy,
atomic
force
(AFM).
electrochemical
performance
SPE
oxidation
characterised
using
cyclic
voltammetry
(CV)
differential
pulse
(DPV)
techniques.
rGO-AuNPs/CNT/SPE
exhibited
notable
improvement
compared
bare/SPE
GO-CNT/SPE,
evidenced
by
relative
peak
currents.
Additionally,
we
employed
baseline
correction
algorithm
accurately
adjust
sensor
response
while
extraneous
background
components
that
are
typically
present
in
voltammetric
experiments.
optimised
offers
linear
sensitivity
from
0.05-1.00
µM,
detection
limit
3
nM
based
on
three
times
standard
deviation
(3δ).
Notably,
sensing
approach
yields
stable,
repeatable,
reproducible
outcomes.
Assessment
drinking
water
samples
indicated
average
recovery
rate
97.5%
enriched
E2
at
concentrations
low
0.5
µM%,
accompanied
only
modest
coefficient
variation
(%CV)
value
2.7%.
