ACS Omega,
Journal Year:
2024,
Volume and Issue:
9(10), P. 11356 - 11365
Published: Feb. 28, 2024
An
efficient
protocol
for
photocatalytic
degradation
of
organic
dyes
and
antibiotics
has
been
successfully
established
via
MOF-derived
(MOF
=
metal-organic
framework)
Ni,
Co-embedded
N-doped
bimetallic
porous
carbon
nanocomposites
(NiCo/NC).
Such
a
NiCo/NC
nanocomposite
features
well-distributed
structures,
suitable
specific
surface
areas,
more
active
sites
determined
by
various
characterization
analyses.
The
catalyst
exhibits
higher
performance
stability
toward
the
liquid-phase
methylene
blue
(MB)
under
visible
light
irradiation
60
min,
after
adsorption-desorption
equilibrium
thorough
into
H
Heliyon,
Journal Year:
2024,
Volume and Issue:
10(2), P. e24722 - e24722
Published: Jan. 1, 2024
The
reed
straw
is
assessed
as
a
potential
source
of
widely
available
renewable
biomass
for
biochar
production
and
compared
with
two
other
waste-based
biomasses,
namely
fruit
stones
blend,
brewery
spent
grains.
biochars
were
activated
via
steam
CO2.
While
activation
yielded
12
%
carbon
from
biomass,
CO2
resulted
in
degradation.
characterization
showed
mesoporous
structure
high
surface
area
514
m2/g.
adsorption
tests
displayed
decent
capacity
biochar,
values
92.6
mg/g
methylene
violet
dye
35.7
acid
green
dye.
Only
1
g/L
dosage
was
able
to
remove
99
the
50
mg/L
solution
15
min
60
10
min.
obtained
results
demonstrate
suitable
well
reed-based
promising
adsorbent.
ACS Omega,
Journal Year:
2024,
Volume and Issue:
9(10), P. 11356 - 11365
Published: Feb. 28, 2024
An
efficient
protocol
for
photocatalytic
degradation
of
organic
dyes
and
antibiotics
has
been
successfully
established
via
MOF-derived
(MOF
=
metal-organic
framework)
Ni,
Co-embedded
N-doped
bimetallic
porous
carbon
nanocomposites
(NiCo/NC).
Such
a
NiCo/NC
nanocomposite
features
well-distributed
structures,
suitable
specific
surface
areas,
more
active
sites
determined
by
various
characterization
analyses.
The
catalyst
exhibits
higher
performance
stability
toward
the
liquid-phase
methylene
blue
(MB)
under
visible
light
irradiation
60
min,
after
adsorption-desorption
equilibrium
thorough
into
H