Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Aug. 6, 2024
Abstract
Removing
heavy
metal
(loid)
s
(HMs)
from
contaminated
soil
in
a
nonselective,
highly
efficient,
and
energy‐free
manner
is
major
global
challenge.
Herein,
this
work
synthesizes
assembles
biomimetic
materials
system
(BMS)
consisting
of
an
artificial
plant,
hemispherical
glass
cover,
reflective
plate,
capable
non‐selective
efficient
remediation
by
various
HM
ions
under
sunlight.
Specifically,
water
cycle
driven
to
establish
between
the
soil,
atmosphere
solar
energy
BMS,
which
induced
water‐soluble
enrich
precipitate
at
top
edge
plant.
The
formed
easily
removed,
contributing
extremely
strong
recyclability
BMS.
This
has
significant
advantages
terms
properties,
contamination
characteristics,
consumption,
processing
time,
removal
amount
over
other
representative
methods,
demonstrating
its
great
potential
for
practical
application
HM‐contaminated
soils.
Deleted Journal,
Journal Year:
2024,
Volume and Issue:
44(5), P. 890 - 908
Published: June 22, 2024
The
sensitivity
of
organisms
to
toxic
substances
is
a
pivotal
facet
in
ecological
and
toxicological
research.
Understanding
differential
sensitivity's
basis
its
evolutionary
underpinnings
imperative
for
anticipating
managing
the
repercussions
toxins
on
organisms.
Our
comprehensive
analysis
reveals
that
physiological
traits,
encompassing
metabolic
capacity,
membrane
transporters,
wield
significant
influence
determining
organism
toxins.
Evolutionary
processes,
including
natural
selection
genetic
variations
also
contribute
tolerance
or
resistance
substances.
This
review
focuses
existing
research
concerning
sensitivity,
particularly
emphasizing
toxicokinetics,
toxicodynamics,
factors
underlie
Furthermore,
it
explores
practical
applications
predictive
ecotoxicology
chemical
management
identifies
promising
prospects
models.
integration
these
insights
into
development
application
can
usher
era
effective
environmentally
benign
chemicals,
thereby
curtailing
impacts
fostering
harmonious
coexistence
between
their
surroundings.
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Aug. 6, 2024
Abstract
Removing
heavy
metal
(loid)
s
(HMs)
from
contaminated
soil
in
a
nonselective,
highly
efficient,
and
energy‐free
manner
is
major
global
challenge.
Herein,
this
work
synthesizes
assembles
biomimetic
materials
system
(BMS)
consisting
of
an
artificial
plant,
hemispherical
glass
cover,
reflective
plate,
capable
non‐selective
efficient
remediation
by
various
HM
ions
under
sunlight.
Specifically,
water
cycle
driven
to
establish
between
the
soil,
atmosphere
solar
energy
BMS,
which
induced
water‐soluble
enrich
precipitate
at
top
edge
plant.
The
formed
easily
removed,
contributing
extremely
strong
recyclability
BMS.
This
has
significant
advantages
terms
properties,
contamination
characteristics,
consumption,
processing
time,
removal
amount
over
other
representative
methods,
demonstrating
its
great
potential
for
practical
application
HM‐contaminated
soils.
