Journal of Energy Storage,
Journal Year:
2024,
Volume and Issue:
87, P. 111563 - 111563
Published: April 4, 2024
H2
is
increasingly
regarded
as
a
decarbonized
solution
for
the
increasing
energy
demand.
However,
due
to
its
low
density,
cannot
be
easily
compressed,
and
there
need
materials
that
can
store
large
amounts
of
H2.
Here
we
tested
adsorption
capacity
micro-polyethylene
(MicroPE)
–
significant
environmental
pollutant
-
at
1–70
bar
30
°C.
increased
with
pressure
(from
0.06
mol/kg
17.21
0.20
68.11
raw
MicroPE).
MicroPE
activated
aqueous
NaOH
significantly
changed
under
same
operating
conditions.
0.50
when
was
treated
0.002
mol/L
NaOH.
We
conclude
feasible
material
H2,
competitive
other
storage
in
terms
availability,
cost-effective,
pollution
mitigation
slightly
higher
rates
condition
studied.
This
work
provides
fundamental
information,
thus
aids
reduction
microplastic
pollution,
while
further
enabling
green
transition.
Frontiers in Environmental Science,
Journal Year:
2023,
Volume and Issue:
11
Published: Nov. 30, 2023
Microplastics
are
ubiquitous
in
soil
ecosystems,
and
they
have
attracted
widespread
attention
owing
to
their
accumulation,
migration
diffusion
environments
negative
effects
on
the
environment
human
health.
However,
previous
studies
microplastics
predominantly
concentrated
aquatic
environments,
presence
ecosystems
has
seldom
been
studied
systematically.
This
review
presents
a
systematic
analysis
of
current
research
based
available
literature
from
2016
2023
using
CiteSpace.
The
most
influential
journals,
authors
countries
this
field
were
identified.
Keyword
co-occurrence
was
performed
determine
hotspots,
cluster
employed
provide
an
accurate
summary
field.
Furthermore,
burst
detection
used
explore
fronts.
reveals
increasing
depth
diversity
discusses
potential
fronts
for
future
Journal of Energy Storage,
Journal Year:
2024,
Volume and Issue:
87, P. 111563 - 111563
Published: April 4, 2024
H2
is
increasingly
regarded
as
a
decarbonized
solution
for
the
increasing
energy
demand.
However,
due
to
its
low
density,
cannot
be
easily
compressed,
and
there
need
materials
that
can
store
large
amounts
of
H2.
Here
we
tested
adsorption
capacity
micro-polyethylene
(MicroPE)
–
significant
environmental
pollutant
-
at
1–70
bar
30
°C.
increased
with
pressure
(from
0.06
mol/kg
17.21
0.20
68.11
raw
MicroPE).
MicroPE
activated
aqueous
NaOH
significantly
changed
under
same
operating
conditions.
0.50
when
was
treated
0.002
mol/L
NaOH.
We
conclude
feasible
material
H2,
competitive
other
storage
in
terms
availability,
cost-effective,
pollution
mitigation
slightly
higher
rates
condition
studied.
This
work
provides
fundamental
information,
thus
aids
reduction
microplastic
pollution,
while
further
enabling
green
transition.
