Green Analytical Chemistry,
Journal Year:
2024,
Volume and Issue:
10, P. 100134 - 100134
Published: July 27, 2024
The
use
of
innumerable
chemical
compounds
in
food
production
to
enhance
agricultural
quality
and
yield
has
raised
significant
global
concerns
regarding
safety.
To
address
these
concerns,
miniaturized
solid
sample
preparation
techniques
have
emerged
as
an
appealing
strategy
for
analyzing
residues
complex
samples,
notably
those
found
matrices.
efficacy
extraction
procedures
hinges
largely
on
the
choice
sorbent
phase.
Molecularly
imprinted
polymers
(MIPs)
been
introduced
highly
selective
versatile
phases
a
wide
range
techniques.
Their
remarkable
selectivity
is
attributed
creation
distinct
cavities
during
synthesis
process,
which
subsequently
accommodate
target
analyte
when
applied.
This
unique
characteristic
empowers
MIP
exhibit
exceptional
specificity
toward
desired
analyte.
MIPs
methods
shown
great
potential
increase
analytical
performance
residue
evaluation
Therefore,
here
we
present
comprehensive
overview
current
landscape
employing
assessment
samples.
Moreover,
this
review
primarily
recent
reports
concerning
application
solid-phase
microextraction
(SPME),
in-tube
SPME,
by
packed
(MEPS),
disposable
pipette
(DPX),
tip
(SPE-PT)
stir
bar
sorptive
(SBSE).
Lastly,
will
bring
some
future
topics
analysis
order
new
avenues
enhancing
products'
safety
assessment.
International Journal of Environmental & Analytical Chemistry,
Journal Year:
2021,
Volume and Issue:
103(5), P. 1068 - 1085
Published: Jan. 7, 2021
Malathion
is
one
of
the
most
well-known
pesticides
which
widely
used
for
controlling
insects
and
pests.
Slow
degradation
extensive
and/or
inappropriate
use
malathion
have
resulted
in
contamination
environment
inflicting
hazardous
damages
to
ecosystems
human
health.
This
systematic
study
along
with
meta-analysis
aimed
at
reviewing
a
vast
number
reports
on
application
above-mentioned
methods
extraction
detection
wide
variety
samples.
Initially,
relevant
articles
over
last
decade
(2011-2020)
were
selected
subsequently
systematically
reviewed.
The
major
key
points
each
article
extracted
by
predefined
data
template.
In
addition,
statistical
analyses
performed
R
software.
Following
thorough
screening,
812
found
be
suitable.
Of
which,
68
finally
met
required
quantitative
criteria
meta-analysis.
Meta-analysis
was
conducted
random-effects
model
high
heterogeneity
(I2
=
99.99%).
pooled
results
revealed
that
solid
phase-based
combination
gas
chromatography-mass
spectroscopy
(GC-MS)
gained
lots
interest
among
researchers.
Within
mentioned
articles,
respective
recoveries,
LODs
LOQs
reported
fall
range
95.43-139%,
0.000026-100
µg/l,
0.000078-300
µg/l
97.20-136%,
0.00001-1.3
µg/g,
0.00005-4.2
µg/g
aqueous
matrices.
also
maximum
recovery
affiliated
SPE
method
(139%)
matrices,
while
corresponding
value
matrices
134%.
According
data,
mean
recoveries
varied
ranges
92.11-102.50
%
92.21-102.91%
respectively.
assigned
(101.46%,
95%
CI=
94.66-108.27).
Chemical Communications,
Journal Year:
2022,
Volume and Issue:
58(57), P. 7890 - 7908
Published: Jan. 1, 2022
This
feature
article
reviews
the
recent
achievements
in
metal–organic
frameworks
(MOFs)
as
versatile
advanced
materials
for
multifunctional
water
treatment
and
prospects
current
challenges
future
research
trends.
Environmental Science & Technology,
Journal Year:
2022,
Volume and Issue:
56(9), P. 5334 - 5354
Published: April 20, 2022
Long-term
continuous
monitoring
(LTCM)
of
water
quality
can
bring
far-reaching
influences
on
ecosystems
by
providing
spatiotemporal
data
sets
diverse
parameters
and
enabling
operation
wastewater
treatment
processes
in
an
energy-saving
cost-effective
manner.
However,
current
technologies
are
deficient
for
long-term
accuracy
collection
processing
capability.
Inadequate
LTCM
impedes
assessment
hinders
the
stakeholders
decision
makers
from
foreseeing
emerging
problems
executing
efficient
control
methodologies.
To
tackle
this
challenge,
review
provides
a
forward-looking
roadmap
highlighting
vital
innovations
toward
LTCM,
elaborates
impacts
through
three-hierarchy
perspective:
data,
parameters,
systems.
First,
we
demonstrate
critical
needs
challenges
natural
resource
water,
drinking
systems,
differentiate
existing
short-term
discrete
techniques.
We
then
elucidate
three
steps
to
achieve
consisting
acquisition
(water
sensors),
(machine
learning
algorithms),
application
(with
modeling
process
as
two
examples).
Finally,
explore
future
opportunities
four
key
domains,
energy,
sensing,
underscore
strategies
transfer
scientific
discoveries
general
end-users.
Journal of Agricultural and Food Chemistry,
Journal Year:
2022,
Volume and Issue:
70(20), P. 6059 - 6071
Published: May 11, 2022
In
this
paper,
carbon
dot
(CD)-encapsulated
1,3,5-tris(4-formylphenyl)benzene
(TFB)/2,5-dihydroxyterephthalohydrazide
(DHTH)
covalent
organic
frameworks
(TDCOFs)
grafted
with
thermoresponsive
poly(N-isopropylacrylamide)
(PNIPAM)
(CDs@TDCOFs@PNIPAM)
were
fabricated
for
the
detection
of
pyrethroids.
CDs@TDCOFs@PNIPAM
achieved
a
temperature-responsive
"on/off"
pyrethroids
based
on
target-triggered
electron-transfer
mechanism.
The
limit
was
as
low
0.69
μg/L
in
wide
linear
range
5-400
(R2
>
0.9523).
Simultaneously,
red,
green,
and
blue
(RGB)
fluorescence
emissions
integrated
smartphone-assisted
device,
enabling
visual
smart
quantitative
4.875
μg/L.
Ultimately,
agricultural
products
chosen
actual
samples
to
verify
applicability
both
recognition
modes,
calculated
recovery
rate
105.48-113.40%.
Accordingly,
featuring
switching
behavior
RGB
emission
provided
promising
analytical
strategy
ensuring
food
safety.
