Abstract
The
increasing
global
population
and
rapid
urbanization
have
led
to
high
consumer
demand
for
construction
other
raw
materials.
Manufacturing
of
synthetic
material
usually
generate
a
large
amount
waste,
resulting
in
significant
environmental
impact.
Fungi
are
one
the
key
biological
resources
that
can
be
used
develop
wide
range
sustainable
products
including
biodegradable
materials
with
promising
applications,
zero
waste
generation
during
production
process.
Mycelium,
vegetative
part
fungus
shaped
either
into
pure
mycelium
or
composites.
Mycelium
grow
its
network
lignocellulosic
material,
combining
separate
pieces
solid
which
results
Mycelium-Based
Composites
(MBCs).
attributes
MBCs
influenced
by
fungal
species,
growth
substrate,
processing
conditions.
Both
remarkable
advantages
as
versatile
because
they
porous,
elastic,
low-density,
low-cost
eco-friendly
potential
applications
various
industries.
In
this
review,
we
provide
an
overview
latest
developments
considering
possibility
using
material-driven
design
(MDD)
approach,
genetic
biochemical
modifications
enhance
properties.
We
therefore
encourage
researchers
science
biotechnology
strengthen
their
collaborative
efforts
address
current
challenges
innovative
field.
IEEE Open Journal of the Communications Society,
Год журнала:
2023,
Номер
4, С. 2609 - 2666
Опубликована: Янв. 1, 2023
Technology
solutions
must
effectively
balance
economic
growth,
social
equity,
and
environmental
integrity
to
achieve
a
sustainable
society.
Notably,
although
the
Internet
of
Things
(IoT)
paradigm
constitutes
key
sustainability
enabler,
critical
issues
such
as
increasing
maintenance
operations,
energy
consumption,
manufacturing/disposal
IoT
devices
have
long-term
negative
economic,
societal,
impacts
be
efficiently
addressed.
This
calls
for
self-sustainable
ecosystems
requiring
minimal
external
resources
intervention,
utilizing
renewable
sources,
recycling
materials
whenever
possible,
thus
encompassing
sustainability.
In
this
work,
we
focus
on
energy-sustainable
during
operation
phase,
our
discussions
sometimes
extend
other
aspects
lifecycle
phases.
Specifically,
provide
fresh
look
at
identify
provision,
transfer,
efficiency
three
main
energy-related
processes
whose
harmonious
coexistence
pushes
toward
realizing
systems.
Their
related
technologies,
recent
advances,
challenges,
research
directions
are
also
discussed.
Moreover,
overview
relevant
performance
metrics
assess
energy-sustainability
potential
certain
technique,
technology,
device,
or
network,
together
with
target
values
next
generation
wireless
systems,
discuss
protocol,
integration,
implementation
issues.
Overall,
paper
offers
insights
that
valuable
advancing
goals
present
future
generations.
Heliyon,
Год журнала:
2023,
Номер
9(12), С. e22496 - e22496
Опубликована: Ноя. 19, 2023
The
study
investigates
the
relationship
between
green
production,
technology,
waste
reduction,
energy
use,
and
sustainability.
A
Partial
Least
Squares
Structural
Equation
Modeling
(PLS-SEM)
approach
was
used
for
analysis.
data
collected
from
a
sample
of
companies
in
textile
industry.
results
suggest
that
production
technology
positively
significantly
affect
reduction
which
mediates
positive
these
two
factors
This
concludes
are
critical
drivers
sustainability
emphasizes
need
to
prioritize
use
sustainable
manufacturing
practices.
has
practical
managerial
implications
all
or
industries
provides
guideline
managers
policymakers
ensure
Abstract
The
increasing
global
population
and
rapid
urbanization
have
led
to
high
consumer
demand
for
construction
other
raw
materials.
Manufacturing
of
synthetic
material
usually
generate
a
large
amount
waste,
resulting
in
significant
environmental
impact.
Fungi
are
one
the
key
biological
resources
that
can
be
used
develop
wide
range
sustainable
products
including
biodegradable
materials
with
promising
applications,
zero
waste
generation
during
production
process.
Mycelium,
vegetative
part
fungus
shaped
either
into
pure
mycelium
or
composites.
Mycelium
grow
its
network
lignocellulosic
material,
combining
separate
pieces
solid
which
results
Mycelium-Based
Composites
(MBCs).
attributes
MBCs
influenced
by
fungal
species,
growth
substrate,
processing
conditions.
Both
remarkable
advantages
as
versatile
because
they
porous,
elastic,
low-density,
low-cost
eco-friendly
potential
applications
various
industries.
In
this
review,
we
provide
an
overview
latest
developments
considering
possibility
using
material-driven
design
(MDD)
approach,
genetic
biochemical
modifications
enhance
properties.
We
therefore
encourage
researchers
science
biotechnology
strengthen
their
collaborative
efforts
address
current
challenges
innovative
field.
