Green Chemistry,
Journal Year:
2024,
Volume and Issue:
26(4), P. 2213 - 2224
Published: Jan. 1, 2024
With
the
frequency
of
public
health
incidents
globally,
a
bio-based
eco-textile
has
been
conveniently
developed
for
all-weather
photodynamic
inactivation
drug-resistant
bacteria.
Materials & Design,
Journal Year:
2023,
Volume and Issue:
237, P. 112558 - 112558
Published: Dec. 13, 2023
Mishandling
of
waste
plastics
and
biomasses
is
a
major
global
concern.
Every
year,
around
380
million
tons
plastic
are
produced,
with
only
9%
being
recycled,
leading
to
widespread
pollution.
Similarly,
biomass
generation
from
agricultural
forestry
sectors
accounts
for
140
billion
metric
tons,
in
addition
2.01
municipal
solid
waste.
This
review
paper
addresses
the
gap
regarding
integration
3D
printing,
upcycling
recycled
plastics,
utilization
sustainable
composites.
printed
parts
have
shown
comparable
mechanical
properties
compared
virgin
materials,
which
been
further
improved
by
biomass-derived
fillers.
The
acknowledges
that
different
printing
parameters
substantial
influence
on
strength,
ductility,
crystallinity,
dimensional
accuracy
parts.
Therefore,
optimizing
these
becomes
crucial
achieving
performance.
Moreover,
incorporating
reinforcing
agents,
stabilizers,
chain
extenders,
compatibilizers,
surface
modifiers
recycling
presents
an
excellent
opportunity
enhance
properties,
thermal
stability,
adhesion,
stability.
Additionally,
identifies
research
gaps
proposes
machine
learning
artificial
intelligence
enhanced
process
control
material
development,
expanding
possibilities
this
field.
Industrial Chemistry and Materials,
Journal Year:
2023,
Volume and Issue:
2(1), P. 30 - 56
Published: June 28, 2023
Acetalization
serves
as
both
a
synthesis
tool
for
renewable
cyclic
acetal
fuel
additives
and
protection
strategy
to
improve
selectivity
in
biomass
conversion.
Energy & Fuels,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Nov. 18, 2024
Rapid
urbanization
and
population
growth
have
intensified
global
energy
demand,
with
fossil
fuel
consumption
aggravating
air
pollution
climate
change.
Hydrogen,
a
clean
carrier,
is
essential
for
transitioning
to
low-carbon
economy.
This
study
examines
the
color-coded
classification
of
hydrogen
production
pathways,
derived
from
both
renewable
non-renewable
sources,
their
emission
profiles.
Additionally,
it
delves
into
critical
aspects
storage
transportation,
highlighting
need
robust
infrastructure
ensure
effective
integration
system.
The
concludes
that
traditional
methods,
such
as
coal
gasification
steam
methane
reforming
(SMR),
significantly
contribute
due
reliance
on
fuels
lack
carbon
capture.
While
blue
hydrogen,
utilizing
capture
(CCS),
offers
reduction
in
greenhouse
gas
(GHG)
emissions,
turquoise
green
produced
via
pyrolysis
water
electrolysis,
respectively,
present
cleaner
alternatives
zero
GHG
emissions.
With
regard
storage,
metal
complex
hydrides
emerge
cost-effective
options,
while
compressed
suitable
large-scale
storage.
For
applications
demanding
high
density,
liquefied
cryo-compressed
are
viable,
despite
associated
costs
complexities.
pressurized
tanks,
cryogenic
liquid
tankers,
pipelines
considered.
Pipelines
favored
long-distance
transportation
cost-effectiveness,
tankers
preferred
short
distances,
higher
requirements.