E3S Web of Conferences,
Journal Year:
2024,
Volume and Issue:
537, P. 07011 - 07011
Published: Jan. 1, 2024
This
research
examines
the
process
of
converting
biomass
into
biofuels
using
environmentally
friendly
nanocatalysts.
The
aim
is
to
meet
growing
need
for
renewable
energy
sources
and
reduce
negative
effects
on
environment.
Various
samples
were
exposed
catalytic
conversion,
which
revealed
notable
disparities
in
cellulose,
hemicellulose,
lignin
constituents.
efficacy
conversion
was
evaluated
utilizing
several
nanocatalyst
compositions,
with
Catalyst
D
exhibiting
greatest
efficiency
80%.
biofuel
output
exhibited
variation
across
different
samples,
Biomass
4
demonstrating
maximum
generation
at
a
rate
120
g/L.
environmental
impact
study
identified
as
having
highest
level
sustainability,
lowest
usage
1.8
kWh/kg,
least
trash
creation
0.05
kg/kg,
CO2
emissions
0.15
kg/kg
compared
other
formulations.
examination
percentage
change
further
highlighted
substantial
improvements
both
performance
sustainability
indicators
D.
results
emphasize
capability
green
nanocatalysts
enhance
eco-friendliness
processes.
contributes
progress
sustainable
production
technologies
shift
towards
more
future.
E3S Web of Conferences,
Journal Year:
2024,
Volume and Issue:
537, P. 09008 - 09008
Published: Jan. 1, 2024
Nanomaterials
have
become
increasingly
important
in
the
field
of
healthcare,
providing
novel
approaches
for
diagnosis,
treatment,
and
drug
delivery.
This
study
explores
synthesis,
characterization,
biomedical
applications
nanoparticles,
with
a
particular
emphasis
on
sustainability.
The
experimental
data
showed
differences
size
nanoparticles.
Gold
nanoparticles
had
an
average
25
nm,
followed
by
iron
oxide
(20
nm),
silver
(30
titanium
(15
nm).
loading
efficiency
was
assessed
results
that
gold
highest
paclitaxel
(80%).
Titanium
90%
insulin,
85%
curcumin,
75%
doxorubicin.
vitro
cell
viability
assays
indicate
are
cytocompatible.
Among
tested,
demonstrated
viability,
reaching
95%
at
concentration
10
µg/mL.
biodegradation
rate
analysis
revealed
exhibited
slower
degradation,
80%
their
mass
remaining
after
21
days.
Similarly,
degradation
82%,
78%,
85%.
this
emphasize
potential
nanomaterials
sustainable
healthcare
applications.
They
provide
opportunities
precise
delivery,
improved
imaging
techniques,
targeted
therapeutics
reduced
environmental
impact.
In
order
to
overcome
obstacles
like
biocompatibility
assessment,
regulatory
approval,
scalability,
it
is
crucial
foster
interdisciplinary
collaborations
maintain
ongoing
research
efforts.
These
endeavors
will
facilitate
translation
nanotechnologies
from
laboratory
settings
practical
applications,
ultimately
leading
enhanced
patient
outcomes.
Biofuels,
Journal Year:
2024,
Volume and Issue:
unknown, P. 1 - 16
Published: Dec. 24, 2024
Nanotechnology
has
emerged
as
a
technology
with
wide
applications
in
various
sectors
from
biotechnology
to
industries.
Considering
the
need
for
continuous
supply
of
green
and
clean
energy
source,
biofuel
industry
become
an
important
research
topic.
As
seeks
sustainable
alternatives
fossil
fuels,
nanotechnology
offers
transformative
path
forward.
The
integration
nanomaterials
into
production
processes
potential
redefine
sector
contribute
significantly
greener
future.
It
holds
promise
bring
about
revolution
by
addressing
critical
challenges
deciphering
new
opportunities
enhancing
production,
feedstock
utilization,
sustainability.
small
size
unique
properties
nanoparticles
innovative
solutions
optimize
enzymatic
biomass
conversion.
Nanoengineered
catalysts
enzyme
immobilization
strategies
enhance
efficiency
specificity
biosynthesis,
reducing
costs
consumption.
Nanomaterials
also
play
pivotal
role
pretreatment,
facilitating
break-down
lignocellulose
structures
enabling
more
efficient
is
used
harvesting
bio-oils
oleaginous
microbial
algal
cells
high
rate
recovery.
However,
techno-economic,
environmental
aspects
this
be
accessed
before
its
scale
application.
E3S Web of Conferences,
Journal Year:
2024,
Volume and Issue:
537, P. 07011 - 07011
Published: Jan. 1, 2024
This
research
examines
the
process
of
converting
biomass
into
biofuels
using
environmentally
friendly
nanocatalysts.
The
aim
is
to
meet
growing
need
for
renewable
energy
sources
and
reduce
negative
effects
on
environment.
Various
samples
were
exposed
catalytic
conversion,
which
revealed
notable
disparities
in
cellulose,
hemicellulose,
lignin
constituents.
efficacy
conversion
was
evaluated
utilizing
several
nanocatalyst
compositions,
with
Catalyst
D
exhibiting
greatest
efficiency
80%.
biofuel
output
exhibited
variation
across
different
samples,
Biomass
4
demonstrating
maximum
generation
at
a
rate
120
g/L.
environmental
impact
study
identified
as
having
highest
level
sustainability,
lowest
usage
1.8
kWh/kg,
least
trash
creation
0.05
kg/kg,
CO2
emissions
0.15
kg/kg
compared
other
formulations.
examination
percentage
change
further
highlighted
substantial
improvements
both
performance
sustainability
indicators
D.
results
emphasize
capability
green
nanocatalysts
enhance
eco-friendliness
processes.
contributes
progress
sustainable
production
technologies
shift
towards
more
future.
