Emerging contaminants,
Journal Year:
2024,
Volume and Issue:
10(4), P. 100388 - 100388
Published: July 6, 2024
The
pervasive
use
of
plastics
in
modern
society
necessitates
the
incorporation
organic
additives
to
enhance
their
performance.
However,
leachability
these
and
potential
adverse
effects
on
environmental
biological
health
have
raised
significant
concerns.
This
review
provides
a
comprehensive
evaluation
factors
influencing
release
from
examines
detrimental
impacts
organisms
humans.
It
discusses
effective
degradation
techniques,
such
as
photodegradation
biodegradation,
mitigate
effects.
Furthermore,
this
explores
recent
advancements
eco-friendly
plastic
additives,
including
bio-based
plasticizers,
flame
retardants,
antioxidants,
environmentally
friendly
non-biobased
additives.
highlights
alternatives
traditional
integrates
latest
research
findings
emerging
trends,
underscoring
need
for
continued
development
sustainable
solutions.
aims
facilitate
transition
techniques
greener
effort
contributes
protection
development,
providing
crucial
guidance
insights
future
practical
applications.
ACS Omega,
Journal Year:
2024,
Volume and Issue:
9(12), P. 13522 - 13533
Published: March 13, 2024
Soil
pollution
from
various
anthropogenic
and
natural
activities
poses
a
significant
threat
to
the
environment
human
health.
This
study
explored
sources
types
of
soil
emphasized
need
for
innovative
remediation
approaches.
Nanotechnology,
including
use
nanoparticles,
is
promising
approach
remediation.
Diverse
nanomaterials,
nanobiosorbents
nanobiosurfactants,
have
shown
great
potential
in
processes.
Nanotechnology
approaches
are
multifaceted.
Reduction
reactions
immobilization
techniques
demonstrate
versatility
nanomaterials
mitigating
pollution.
Nanomicrobial-based
bioremediation
further
enhances
efficiency
pollutant
degradation
agricultural
soils.
A
literature-based
screening
was
conducted
using
different
search
engines,
PubMed,
Web
Science,
Google
Scholar,
2010
2023.
Keywords
such
as
"soil
pollution,
nanotechnology,
nanoremediation,
heavy
metal
remediation,
remediation"
combinations
these
were
used.
The
metals
nanotechnology
has
demonstrated
results
offers
an
eco-friendly
sustainable
solution
address
this
critical
issue.
Nanobioremediation
robust
strategy
combatting
organic
contamination
soils,
pesticides
herbicides.
nanophytoremediation,
which
assist
plants
extracting
detoxifying
pollutants,
represents
cutting-edge
environmentally
friendly
tackling
Results in Chemistry,
Journal Year:
2024,
Volume and Issue:
7, P. 101511 - 101511
Published: Jan. 1, 2024
Cancer
and
bacterial
infections
are
among
the
most
high-interest
health
threats
facing
humanity.
The
growing
resistance
to
current-found
anticancer
antibacterial
drugs
necessitates
exploration
of
new,
effective
agents.
To
synthesize
some
them,
4-chloroskimmetine
(4-CSM),
with
undefined
biological
effects,
was
used
as
a
building
block
create
thirteen
its
derived
coumarins.
This
precursor
Bargellini
reaction
were
produce
first
coumarin,
designated
Y0.
From
which,
twelve
coumarins
coded
Y1-Y12
created
by
esterifying
Y0
various
halophenols
using
SOCl2-promoted
reaction.
FTIR,
1HNMR,
13CNMR
spectra
analyzed
ascertain
chemical
framework
Their
potential
function
prospects
evaluated
against
six
cancer-derived
populations
employing
preliminary
MTT-facilitated
methodology.
These
MCF-7,
HeLa,
SKG,
AMN3,
SK-OV-3,
KYSE-30.
On
other
hand,
broth
microdilution
protocol
followed
specify
activity
high-infective
aerobes.
include
Pseudomonas
aeruginosa,
Shigella
dysenteriae,
Haemophilus
influenza,
Klebsiella
pneumonia,
Escherichia
coli,
Salmonella
typhi.
results
evaluation
indicated
that
presence
fluoride
on
off-side
aromatic
ring
afforded
potent
activity,
Y5
best.
For
second
same
findings
true,
but
when
halogen
is
chloride
Y2
superior
one.
authors
concluded
4-CSM,
can
be
exploited
bioactive
activities.
Also,
considered
promising
structural
templates
for
producing
medications,
respectively.
Microorganisms,
Journal Year:
2025,
Volume and Issue:
13(1), P. 155 - 155
Published: Jan. 14, 2025
Although
bioremediation
is
considered
the
most
environmentally
friendly
and
sustainable
technique
for
remediating
contaminated
soil
water,
it
effective
when
combined
with
physicochemical
methods,
which
allow
preliminary
removal
of
large
quantities
pollutants.
This
allows
microorganisms
to
efficiently
eliminate
remaining
contaminants.
In
addition
requiring
necessary
genes
degradation
pathways
specific
substrates,
as
well
tolerance
adverse
environmental
conditions,
may
perform
below
expectations.
One
typical
reason
this
high
toxicity
xenobiotics
present
in
concentrations,
stemming
from
vulnerability
bacteria
introduced
a
site.
especially
true
planktonic
bacteria,
whereas
within
biofilms
or
microcolonies
have
significant
advantages
over
their
counterparts.
A
physical
matrix
essential
formation,
maintenance,
survival
bacterial
biofilms.
By
providing
such
immobilization,
formation
can
be
facilitated
accelerated.
Therefore,
immobilization
offers
comprehensive
solution
cleanup
by
harnessing
specialized
metabolic
activities
while
ensuring
retention
efficacy
at
target
sites.
many
cases,
also
need
methods
that
are
otherwise
required
initially
reduce
contaminant
concentrations.
Then,
will
possible
use
remediation
higher
concentrations
xenobiotics,
significantly
reducing
costs
maintaining
rapid
rate
processes.
review
explores
benefits
highlighting
materials
processes
developing
an
optimal
matrix.
It
focuses
on
following
four
key
areas:
(i)
types
organic
pollutants
impacting
human
health,
(ii)
strains
used
processes,
(iii)
(iv)
cells
various
carriers
targeted
pollutant
degradation.
International Journal of Molecular Sciences,
Journal Year:
2024,
Volume and Issue:
25(9), P. 4769 - 4769
Published: April 27, 2024
Contemporary
living
is
continuously
leading
to
poor
everyday
choices
resulting
in
the
manifestation
of
various
diseases.
The
benefits
plant-based
nutrition
are
undeniable
and
research
on
topic
rising.
Modern
man
now
aware
possibilities
that
plant
can
provide
seeking
ways
benefit
from
it.
Dietary
phenolic
compounds
among
easily
accessible
beneficial
substances
exhibit
antioxidant,
anti-inflammatory,
antitumor,
antibacterial,
antiviral,
antifungal,
antiparasitic,
analgesic,
anti-diabetic,
anti-atherogenic,
antiproliferative,
as
well
cardio-and
neuroprotective
activities.
Several
industries
exploring
incorporate
biologically
active
their
produce.
This
review
concentrated
presenting
current
information
about
dietary
contribution
maintaining
good
health.
Additionally,
this
content
will
demonstrate
importance
prosperity
natural
for
fields,
i.e.,
food
industry,
cosmetology,
biotechnology,
others.
Journal of Hazardous Materials,
Journal Year:
2024,
Volume and Issue:
477, P. 135299 - 135299
Published: July 22, 2024
The
increasing
accumulation
of
small
plastic
particles,
in
particular
microplastics
(>1
µm
to
5
mm)
and
nanoplastics
(<
1
µm),
the
environment
is
a
hot
topic
our
rapidly
changing
world.
Recently,
studies
were
initiated
better
understand
behavior
micro-
(MNP)
within
complex
matrices
like
soil,
as
well
their
characterization,
incorporation
potential
toxicity
terrestrial
biota.
However,
there
remains
significant
knowledge
gaps
understanding
wide-extent
impacts
MNP
on
invertebrates.
We
first
summarized
facts
global
pollution
generation
MNP.
Then,
we
focused
compiling
existing
literature
examining
consequences
exposure
diversity
investigated
biological
endpoints
(from
molecular
individual
levels)
compiled
get
comprehension
effects
according
different
factors
such
shape,
polymer
type,
organism,
concentration
duration.
sublethal
are
acknowledged
literature,
yet
no
general
conclusion
was
drawn
highly
dependent
characteristic
experimental
design.
Finally,
synthesis
highlighted
some
research
remediation
strategies,
protocol
standardize
ecotoxicological
studies.
