Environmental
pollution
is
a
critical
issue
due
to
its
impact
on
humans
and
other
organisms.
An
important
demand
nowadays
the
need
for
green
method
synthesize
nanoparticles
remove
pollutants.
Therefore,
this
study
focuses
first
time
synthesizing
MoO3
WO3
nanorods
using
self-assembled
Leidenfrost
method.
The
XRD,
SEM,
BET
FTIR
analyses
were
used
characterize
yield
powder.
XRD
results
emphasize
formation
of
in
nanoscale
with
crystallite
sizes
46.28
53.05
nm
surface
area
2.67
24.72
m2
g-1,
respectively.
A
comparative
uses
synthetic
as
adsorbents
adsorb
methylene
blue
(MB)
aqueous
solutions.
batch
adsorption
experiment
was
performed
investigate
effects
adsorbent
doses,
shaking
time,
solution
pH
dye
concentration
MB
dye.
demonstrate
that
optimal
removal
achieved
at
2
10
99%
MoO3,
experimental
isothermal
data
follow
Langmuir
both
maximum
capacity
102.37
151.41
mg
g-1
MoO3.
