Membranes,
Journal Year:
2024,
Volume and Issue:
14(8), P. 180 - 180
Published: Aug. 22, 2024
A
bibliometric
study
to
analyze
the
scientific
documents
released
until
2024
in
database
Scopus
related
use
of
pressure-driven
membrane
technologies
(microfiltration,
ultrafiltration,
nanofiltration
and
reverse
osmosis)
for
heavy
metal
removal
was
conducted.
The
work
aimed
assess
primary
quantitative
attributes
research
this
field
during
specified
period.
total
2205
were
identified,
corresponding
analysis
indicated
an
exponential
growth
number
publications
over
time.
contribution
three
most
productive
countries
(China,
India
USA)
accounts
more
than
47.1%
publications,
with
Chinese
institutions
appearing
as
ones.
Environmental
Science
frequent
knowledge
category
(51.9%
contribution),
followed
by
Chemistry
Chemical
Engineering.
relative
frequency
keywords
a
complete
network
allowed
conclusion
that
low-pressure
(microfiltration
ultrafiltration)
have
been
deeply
investigated
high-pressure
(nanofiltration
osmosis).
Although
porous
membranes
are
not
adequate
dissolved
metals
ionic
forms,
incorporation
embedded
adsorbents
within
structure
auxiliary
chemicals
form
metallic
complexes
or
micelles
can
be
retained
type
promising
approaches.
High-pressure
achieve
rejection
percentages
above
90%
(99%
case
osmosis),
but
they
imply
lower
permeate
productivity
higher
costs
due
required
pressure
gradients.
Molecules,
Journal Year:
2024,
Volume and Issue:
29(13), P. 3160 - 3160
Published: July 2, 2024
With
the
rapid
development
of
industry,
discharge
heavy
metal-containing
wastewater
poses
a
significant
threat
to
aquatic
and
terrestrial
environments
as
well
human
health.
This
paper
provides
brief
introduction
basic
principles
ion-imprinted
polymer
preparation
focuses
on
interaction
between
template
ions
functional
monomers.
We
summarized
current
research
status
typical
metal
ions,
such
Cu(II),
Ni(II),
Cd(II),
Hg(II),
Pb(II),
Cr(VI),
metalloid
As
Sb
classes.
Furthermore,
it
discusses
recent
advances
in
multi-ion-imprinted
polymers.
Finally,
addresses
challenges
faced
by
technology
explores
its
prospects
for
application.
Membranes,
Journal Year:
2024,
Volume and Issue:
14(8), P. 180 - 180
Published: Aug. 22, 2024
A
bibliometric
study
to
analyze
the
scientific
documents
released
until
2024
in
database
Scopus
related
use
of
pressure-driven
membrane
technologies
(microfiltration,
ultrafiltration,
nanofiltration
and
reverse
osmosis)
for
heavy
metal
removal
was
conducted.
The
work
aimed
assess
primary
quantitative
attributes
research
this
field
during
specified
period.
total
2205
were
identified,
corresponding
analysis
indicated
an
exponential
growth
number
publications
over
time.
contribution
three
most
productive
countries
(China,
India
USA)
accounts
more
than
47.1%
publications,
with
Chinese
institutions
appearing
as
ones.
Environmental
Science
frequent
knowledge
category
(51.9%
contribution),
followed
by
Chemistry
Chemical
Engineering.
relative
frequency
keywords
a
complete
network
allowed
conclusion
that
low-pressure
(microfiltration
ultrafiltration)
have
been
deeply
investigated
high-pressure
(nanofiltration
osmosis).
Although
porous
membranes
are
not
adequate
dissolved
metals
ionic
forms,
incorporation
embedded
adsorbents
within
structure
auxiliary
chemicals
form
metallic
complexes
or
micelles
can
be
retained
type
promising
approaches.
High-pressure
achieve
rejection
percentages
above
90%
(99%
case
osmosis),
but
they
imply
lower
permeate
productivity
higher
costs
due
required
pressure
gradients.
