Preparative Biochemistry & Biotechnology,
Journal Year:
2022,
Volume and Issue:
53(7), P. 713 - 727
Published: Dec. 24, 2022
Growing
public
concern
toward
environmental
sustainability
is
currently
motivating
a
paradigm
shift
designing
easily
degradable
plastics
that
can
replace
conventional
synthetic
plastics.
The
massive
rise
in
food
waste
generation
has
led
to
an
increased
burden
on
landfills,
thereby
resulting
the
higher
emission
of
greenhouse
gases.
Using
this
produce
bioplastics
will
benefit
not
only
environment
but
also
develop
systematic
management
system.
Moreover,
are
preferred
due
use
biomaterials
derived
from
renewable
resources.
Furthermore,
degrade
faster
than
plastics,
which
take
years
degrade.
biodegradation
occurs
under
normal
conditions
and
disintegrates
into
carbon
dioxide,
water,
biomass,
inorganic
compounds
without
producing
hazardous
residues.
In
review,
we
discuss
synthesis
starch
based
using
discarded
parts
various
fruits
vegetables.
address
importance
components
development
bioplastics,
such
as
fillers,
plasticizers,
other
additives
essential
providing
bioplastic
with
different
physio-mechanical
properties.
Therefore,
production
pave
way
achieve
near
future.
Journal of Bioresources and Bioproducts,
Journal Year:
2023,
Volume and Issue:
8(4), P. 361 - 387
Published: July 13, 2023
Conventional
plastics
exacerbate
climate
change
by
generating
substantial
amounts
of
greenhouse
gases
and
solid
wastes
throughout
their
lifecycle.
To
address
the
environmental
economic
challenges
associated
with
petroleum-based
plastics,
bioplastics
have
emerged
as
a
viable
alternative.
Bioplastics
are
type
plastic
that
either
biobased,
biodegradable,
or
both.
Due
to
biodegradability
renewability,
established
earth-friendly
materials
can
replace
nonrenewable
plastics.
However,
early
bioplastic
development
has
been
hindered
higher
production
costs
inferior
mechanical
barrier
properties
compared
conventional
Nevertheless,
studies
shown
addition
additives
fillers
enhance
properties.
Recent
advancements
in
incorporated
special
like
antibacterial,
antifungal,
antioxidant
agents,
offering
added
values
unique
for
specific
applications
various
sectors.
For
instance,
integrating
antibacterial
into
enables
creation
active
food
packaging,
extending
shelf-life
inhibiting
spoilage-causing
bacteria
microorganisms.
Moreover,
be
applied
wound
dressings,
accelerating
healing
preventing
oxidative
damage
cells
tissues.
These
innovative
developments
offer
promising
opportunities
developing
sustainable
practical
solutions
fields.
Within
this
review
two
main
focuses:
an
outline
classifications
understand
how
they
fit
coveted
substitute
overview
recent
innovations
applications.
We
cover
use
different
polymers
additives,
presenting
findings
potential
within
last
decade.
Although
current
research
primarily
focuses
on
packaging
biomedicine,
exploration
specialized
is
still
its
stages,
wide
range
undiscovered
opportunities.
Heliyon,
Journal Year:
2022,
Volume and Issue:
8(12), P. e12313 - e12313
Published: Dec. 1, 2022
Dental
implantology
has
always
emphasized
silver
nanoparticles
(AgNPs)
for
various
applications
due
to
their
biocompatibility,
antibacterial
activity,
and
increased
surface
volume
ratio
offered
by
these
particles.
It
is
utilized
a
large
extent
in
the
dental
implant
industry
as
modification,
biocompatible
constituent
composite
material.
AgNPs
may
be
produced
inexpensively,
sustainably,
environmentally
responsibly
utilizing
technologies
that
extract
plant
The
phytochemical
components
are
contained
plants
make
them
better,
non-toxic,
more
cost-effective
alternative
both
physical
chemical
approaches.
Because
size
shape
of
AgNP
depend
on
synthesis
method
technique,
because
efficacy
toxicity
shape,
methods
techniques
have
recently
become
focus
significant
amount
research
attention.
In
this
review,
we
discussed
Plant
Extracted
Ag-NP's
whose
sizes
range
up
100nm.
This
review
also
focuses
recent
advancements
AgNPs,
well
characterization
methodologies,
current
obstacles,
future
possibilities,
implantology.
Heliyon,
Journal Year:
2023,
Volume and Issue:
9(2), P. e13538 - e13538
Published: Feb. 1, 2023
Climate
change
and
increased
pollution
caused
by
traditional
petrochemical
plastics
made
the
biodegradable
environment-friendly
plastic
(bioplastic)
research
more
popular.
Bioplastics
can
be
manufactured
from
natural
renewable
ingredients
used
as
food
packaging
material
without
harming
environment.
This
work
focuses
on
developing
bioplastic
films
such
starch
of
tamarind
seeds,
berry
with
licorice
root.
Attention
has
been
paid
to
characterizing
biodegradability,
mechanical
testing,
Fourier
Transformed
Infrared
Spectroscopy
(FTIR),
Scanning
Electron
Microscopy
(SEM),
Thermogravimetric
Analysis
(TGA),
Differential
Calorimetry
(DSC),
antimicrobial
analysis
tests.
Phenolic
compounds
present
in
seeds
soil
biodegradability
well
thermal
properties
films.
The
FTIR
spectra
confirmed
presence
various
bio-molecules.
Improved
performance
is
also
obtained.
results
this
confirm
that
prepared
samples
applications.
Results in Engineering,
Journal Year:
2024,
Volume and Issue:
23, P. 102697 - 102697
Published: Aug. 9, 2024
Plants
are
primary
source
of
essential
secondary
metabolites
(SMs).
Most
these
SMs
have
potential
pharmaceutical,
medicinal,
and
nutraceutical
applications.
However,
the
accumulate
slowly
in
low
amounts
wild
plants.
Therefore,
yields
obtained
from
plant
populations
insufficient
to
meet
need
for
commercialization.
Consequently,
this
research
gap
has
necessitates
an
ongoing
study
enhance
production
metabolites.
Hairy
root
provides
alternative
important
The
transformation
method
is
cost-effective
due
its
ability
supply
fresh
products
throughout
year.
Currently,
numerous
genetic
engineering
approaches
used
enhancement
metabolite
production.
This
review
comprehensively
summarizes
application
metabolic
hairy
roots
technology
possible
ways
industrial
scale-up
desired
demand
