Food Bioengineering,
Journal Year:
2024,
Volume and Issue:
3(1), P. 14 - 28
Published: March 1, 2024
Abstract
Industry
4.0
integrates
the
physical,
digital,
and
biological
realms
by
applying
digital
automation
in
systems,
processes,
manufacturing
facilities.
is
actively
shaping
development
of
intelligent
food
processing
industries
cultivated
meat
(CM)
sector.
This
integration
plays
a
crucial
role
accelerating
progress
within
global
CM
sector,
facilitating
achievement
its
objectives
related
to
sustainability,
security,
human
health,
environmental
concerns,
hygiene.
Incorporating
into
systems
empowers
upstream
downstream
production
processes
become
more
capable
self‐optimisation.
However,
enabling
rapid
adoption
emerging
startups
small
medium‐sized
enterprises
industry
necessitates
thorough
understanding
prerequisites
evaluation
technological
limitations.
Challenges
include
substantial
initial
costs
associated
with
establishing
infrastructure,
robust
cybersecurity
measures
ensure
effective
risk
management,
acquiring
skilled
professionals
proficient
both
operational
maintenance
roles.
Integrating
evolving
sector
presents
an
exciting
opportunity
foster
business‐to‐business
investments
across
various
domains,
including
local
markets,
export
opportunities,
broader
consumer
ecosystem.
Fundamental Research,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Jan. 1, 2024
Layered
materials
have
become
one
of
the
focuses
in
chemistry
and
science
due
to
their
unique
structural
characteristics
highly
tunable
properties.
Clusters
with
mesoscale
dynamic
structures
can
be
introduced
into
layered
as
units
or
guests,
endowing
cluster-based
enhanced
emerging
new
properties
different
from
those
individual
components.
This
review
starts
a
summary
design
assembly
strategies
typical
multiscale
perspective,
then
introduces
characterization
simulation
platform.
Additionally,
we
discuss
recent
progress
catalytic
energy
storage
application
summarize
current
challenges
future
directions
this
field.
MRS Bulletin,
Journal Year:
2023,
Volume and Issue:
48(11), P. 1140 - 1153
Published: Oct. 25, 2023
Abstract
Biological
systems
generate
a
wealth
of
materials,
and
their
design
principles
inspire
inform
scientists
from
broad
range
fields.
Nature
often
adapts
hierarchical
multilevel
material
architectures
to
achieve
set
properties
for
specific
functions,
providing
templates
difficult
tasks
understanding
the
intricate
interplay
between
structure–property–function
relationships.
While
these
materials
tend
be
complex
feature
functional
interactions
across
scales,
molecular-based
multiscale
modeling,
machine
learning,
artificial
intelligence
combined
with
experimental
approaches
synthesize
characterize
have
emerged
as
powerful
tools
analysis,
prediction,
design.
This
article
examines
materiomic
graph-based
modeling
frameworks
assisting
researchers
pursue
materials-focused
studies
in
biological
context,
provides
an
overview
methods
that
can
applied
bottom-up
manufacturing,
including
historical
perspective
bioinspired
research.
Through
advent
novel
diverse
nature,
there
is
potential
develop
improved
properties.
Graphical
abstract
ACS Applied Polymer Materials,
Journal Year:
2024,
Volume and Issue:
6(2), P. 1224 - 1235
Published: Jan. 4, 2024
We
added
a
block
copolymer
compatibilizer
to
thermodynamically
immiscible
blend
of
poly(lactide)
(PLA)
and
poly(amide11)
(PA11)
achieved
maximum
strain
at
break
(εb)
toughness
(γ)
467%
157
MJ
m–3,
respectively,
which
were
about
30
times
higher
than
those
the
neat
PLA/PA11
system,
while
maintaining
yield
stress
(σyield)
87%
that
PLA
homopolymer.
The
PA11
based
di-,
tri-,
multiblock
compatibilizers
synthesized
via
bulk
polycondensation
reactions
11-aminoundecanoic
acid
(11-AUDA)
hexamethylene
diamine
(HMDA)
or
decylamine
without
use
solvents.
This
was
followed
by
mechanochemical
ball
milling
reaction
between
resulting
polyamide
11
containing
di-
mono
terminated
amine
end-groups
d,l-lactide
through
ring-opening
polymerization
(ROP)
urethane
linkage
reaction.
morphology
prepared
PLA/PA11/compatibilizer
investigated
O-PTIR
AFM
analyses.
As
content
increased
from
0
0.2,
0.5,
1
wt
%,
size
domain
droplets
dramatically
decreased,
2.4
1.4
μm,
interfacial
thickness
17.0
25.5,
55.2,
76.9
Å,
thereby
supporting
adhesion
interface.
Mechanical
property
analyses
demonstrated
mechanical
properties
improved
as
amount
molecular
weight
(MW)
blocks
beyond
critical
(Mc)
MW
for
cocrystallization,
number
increased.
findings
this
study
demonstrate
potential
enhancing
biobased
polymer
blends
incorporating
compatibilizers.
could
help
expand
broad
range
applications
polymers
suitable
various
fields.
Food Bioengineering,
Journal Year:
2024,
Volume and Issue:
3(1), P. 14 - 28
Published: March 1, 2024
Abstract
Industry
4.0
integrates
the
physical,
digital,
and
biological
realms
by
applying
digital
automation
in
systems,
processes,
manufacturing
facilities.
is
actively
shaping
development
of
intelligent
food
processing
industries
cultivated
meat
(CM)
sector.
This
integration
plays
a
crucial
role
accelerating
progress
within
global
CM
sector,
facilitating
achievement
its
objectives
related
to
sustainability,
security,
human
health,
environmental
concerns,
hygiene.
Incorporating
into
systems
empowers
upstream
downstream
production
processes
become
more
capable
self‐optimisation.
However,
enabling
rapid
adoption
emerging
startups
small
medium‐sized
enterprises
industry
necessitates
thorough
understanding
prerequisites
evaluation
technological
limitations.
Challenges
include
substantial
initial
costs
associated
with
establishing
infrastructure,
robust
cybersecurity
measures
ensure
effective
risk
management,
acquiring
skilled
professionals
proficient
both
operational
maintenance
roles.
Integrating
evolving
sector
presents
an
exciting
opportunity
foster
business‐to‐business
investments
across
various
domains,
including
local
markets,
export
opportunities,
broader
consumer
ecosystem.
