Polymers for Advanced Technologies,
Journal Year:
2024,
Volume and Issue:
35(12)
Published: Nov. 25, 2024
ABSTRACT
The
exploration
of
cellulose,
a
natural
polysaccharide
derived
from
renewable
biomass,
has
seen
significant
advancements
in
recent
years
due
to
its
biocompatibility,
biodegradability,
and
versatility.
This
review
paper
comprehensively
covers
the
latest
developments
cellulose
derivatives
as
functional
biomaterials
for
various
biomedical
applications.
Emphasis
is
placed
on
intrinsic
properties
such
mechanical
strength,
thermal
stability,
chemical
modifiability,
which
enable
wide‐ranging
use
drug
delivery
systems,
wound
dressings,
tissue
engineering,
biosensors.
article
further
delves
into
modification
techniques—such
oxidation,
esterification,
etherification—that
enhance
cellulose's
performance,
allowing
it
be
fine‐tuned
specialized
medical
applications,
including
creation
scaffolds
regeneration
smart
materials
responsive
release.
Additionally,
hybridization
with
inorganic
offers
potential
developing
superior
antimicrobial
improved
characteristics.
also
addresses
challenges
processing,
particularly
concerning
optimizing
structure
specific
while
highlighting
future
opportunities
field
personalized
medicine
intelligent
healthcare
devices.
By
examining
both
current
innovations
trends,
this
highlights
growing
importance
sustainable
versatile
resource
industry.
Heliyon,
Journal Year:
2024,
Volume and Issue:
10(21), P. e39815 - e39815
Published: Oct. 25, 2024
India
generating
huge
amount
of
agricultural
waste,
especially
crop
residues.
In
India,
around
141
MT
residue
is
generated
each
year,
in
which
92
burned
due
to
inadequate
sustainable
management
practices,
results
rise
emissions
particulate
matter
as
well
quality
air
pollution.
Burning
residues
raises
mortality
rates
and
substantially
decreases
production
while
posing
a
major
risk
threatening
the
environment,
condition
soil,
human
health,
quality.
Proper
crucial
because
it
rich
nutrient
contents
could
potentially
be
used
value-added
products.
helps
improvement
soil
organic
matter,
increases
physical,
chemical
biological
properties
leads
increase
productivity.
The
short
planting
season
following
previous
crop's
harvest,
insufficient
equipment,
manpower
shortage,
declining
acceptance
feed
are
just
few
causes
burning.
This
goal
this
study
pinpoint
primary
illicit
activity,
damaging
effect
burning
on
appropriate
handling
leftover
for
animal
feed.
addition,
septs
plan
keep
farm
by
using
both
conventional
reduced
tillage
techniques,
turning
into
biofuels
like
biochar
bio-oil,
mulching,
composting,
briquette
production.
Moreover,
Indian
government
has
taken
several
efforts
address
issue,
including
programs
laws
that
support
practices
shifting
waste
energy,
providing
50-80
%
subsidies
under
various
policies
schemes
purchase
machineries.
machinery
retention
one
easy
simple
method
management.
paper
includes
history
management,
conversion
technologies
generate
energy
from
residue,
generation
biogas,
compost
biodiesels
households
uses.
different
machines
help
manage
retained
soils
field
after
harvest
way
forward
also
discussed.
Polymers for Advanced Technologies,
Journal Year:
2024,
Volume and Issue:
35(12)
Published: Nov. 25, 2024
ABSTRACT
The
exploration
of
cellulose,
a
natural
polysaccharide
derived
from
renewable
biomass,
has
seen
significant
advancements
in
recent
years
due
to
its
biocompatibility,
biodegradability,
and
versatility.
This
review
paper
comprehensively
covers
the
latest
developments
cellulose
derivatives
as
functional
biomaterials
for
various
biomedical
applications.
Emphasis
is
placed
on
intrinsic
properties
such
mechanical
strength,
thermal
stability,
chemical
modifiability,
which
enable
wide‐ranging
use
drug
delivery
systems,
wound
dressings,
tissue
engineering,
biosensors.
article
further
delves
into
modification
techniques—such
oxidation,
esterification,
etherification—that
enhance
cellulose's
performance,
allowing
it
be
fine‐tuned
specialized
medical
applications,
including
creation
scaffolds
regeneration
smart
materials
responsive
release.
Additionally,
hybridization
with
inorganic
offers
potential
developing
superior
antimicrobial
improved
characteristics.
also
addresses
challenges
processing,
particularly
concerning
optimizing
structure
specific
while
highlighting
future
opportunities
field
personalized
medicine
intelligent
healthcare
devices.
By
examining
both
current
innovations
trends,
this
highlights
growing
importance
sustainable
versatile
resource
industry.
