Advanced Functional Materials,
Год журнала:
2024,
Номер
unknown
Опубликована: Окт. 27, 2024
Abstract
Since
the
advent
of
3D
printing
technology,
a
significant
effort
has
been
made
to
develop
new
printable
materials.
Despite
recent
progress
in
field
printing,
limited
availability
photoactive
resins
motivated
continuous
research
endeavors
novel
photoresins
with
multifunctional
capabilities.
Herein
biobased
photoresin
derived
is
reported
from
modified
olive
oil,
designed
for
high‐resolution
solvent‐free
4D
The
physicochemical
properties
printed
polymers
are
fine‐tuned
using
acrylic
acid
as
diluent
cum
comonomer.
mechanical
similar
various
soft
tissues,
such
ligaments,
articular
cartilage,
and
collagenous
bone,
showcasing
its
potential
tissue
engineering
applications.
While
excellent
temperature‐responsive
shape
memory
attributes
coupled
exceptional
antimicrobial
toward
gram‐negative
gram‐positive
bacteria
highlight
nature
polymers.
Moreover,
exhibited
outstanding
hemocompatibility
good
cytocompatibility
mouse
fibroblast
cells,
suggesting
their
In
sum,
newly
developed
resin
can
be
employed
minimize
environmental
impact
additive
manufacturing
while
being
competitive
existing
fossil‐based
photoresins,
thereby
meeting
growing
demand
advanced
superior
smart
biomedical
Heliyon,
Год журнала:
2024,
Номер
10(1), С. e24122 - e24122
Опубликована: Янв. 1, 2024
This
comprehensive
review
investigates
a
variety
of
creative
approaches
in
the
field
sustainable
food
packaging
biomaterials
response
to
growing
environmental
concerns
and
negative
effects
traditional
plastic
packaging.
The
study
carefully
looks
at
new
developments
biomaterials,
such
as
biodegradable
polymers,
ceramics,
composites,
metal
alloys,
need
for
environmentally
suitable
substitutes.
It
highlights
how
they
might
replace
conventional
lessen
damage.
Moreover,
incorporation
nanotechnology
into
is
closely
examined
due
its
crucial
function
improving
barrier
qualities,
introducing
antimicrobial
properties,
smart
features.
investigation
includes
edible
coatings
films
made
polymers
that
offer
sensory
experiences
addition
prolonging
shelf
life
products.
emphasizes
use
derived
from
processing
agricultural
waste,
supporting
responsible
methods
producing
materials
while
simultaneously
using
less
resources
waste.
As
strong
defense
against
pollution,
report
industry's
increasing
recyclable
packaging,
which
line
with
concepts
circular
economy.
A
movement
consumer
tastes
regulatory
pressures
toward
evident
global
market
patterns.
Notwithstanding
these
encouraging
trends,
there
are
still
issues
be
resolved,
including
cost-effectiveness,
technological
constraints,
scalability
biomaterial
production.
thorough
analysis
concludes
by
highlighting
critical
role
have
played
guiding
industry
sustainability
emphasizing
ongoing
research
development
adequately
address
on
worldwide
scale
satisfy
demand
friendly
options.
Biomaterials
show
great
promise
catalysts
transition
future.
Advanced Energy Materials,
Год журнала:
2024,
Номер
unknown
Опубликована: Сен. 30, 2024
Abstract
Silicon/carbon
(Si/C)
composites
present
great
potential
as
anode
materials
for
rechargeable
batteries
since
the
integrate
high
specific
capacity
and
preferable
cycling
stability
from
Si
C
components,
respectively.
Functional
Si/C
based
on
lignocellulose
have
attracted
wide
attention
due
to
advantages
lignocellulose,
including
sustainability
property,
flexible
structural
tunability,
diverse
physicochemical
functionality.
Although
flourishing
development
of
boosts
studies
lignocellulose‐derived
with
electrochemical
performance,
publications
that
comprehensively
clarify
design
functionalization
these
high‐profile
are
still
scarce.
Accordingly,
this
review
first
systematically
summarizes
recent
advances
in
after
a
brief
clarification
about
selection
sources
self
extraneous
sources.
Afterward,
strategies,
nanosizing,
porosification,
magnesiothermic
reduction
material
well
heteroatom
modification
material,
specifically
highlighted.
Besides,
applications
Si/C‐based
elaborated.
Finally,
discusses
challenges
prospects
application
energy
storage
provides
nuanced
viewpoint
regarding
topic.
Advanced Materials,
Год журнала:
2024,
Номер
unknown
Опубликована: Ноя. 21, 2024
Lignocellulose-mediated
liquid
metal
(LM)
composites,
as
emerging
functional
materials,
show
tremendous
potential
for
a
variety
of
applications.
The
abundant
hydroxyl,
carboxyl,
and
other
polar
groups
in
lignocellulose
facilitate
the
formation
strong
chemical
bonds
with
LM
surfaces,
enhancing
wettability
adhesion
improved
interface
compatibility.
Beyond
serving
supportive
matrix,
can
be
tailored
to
optimize
microstructure
adapting
them
diverse
This
review
comprehensively
summarizes
fundamental
principles
recent
advancements
lignocellulose-mediated
highlighting
advantages
composite
fabrication,
including
facile
synthesis,
versatile
interactions,
inherent
functionalities.
Key
modulation
strategies
LMs
innovative
synthesis
methods
functionalized
composites
are
discussed.
Furthermore,
roles
structure-performance
relationships
these
electromagnetic
shielding,
flexible
sensors,
energy
storage
devices
systematically
summarized.
Finally,
obstacles
prospective
pertaining
thoroughly
scrutinized
deliberated
upon.
is
expected
provide
basic
guidance
researchers
boost
popularity
applications
useful
references
design
state-of-the-art
LMs.
The
presence
of
lignin
in
biomass
constitutes
a
substantial
obstacle
to
the
efficient
production
sugar
platforms
via
enzymatic
hydrolysis.
Current
research
mainly
focuses
on
interactions
based
chemical
structures
lignin,
while
influence
its
particles
morphology
has
been
largely
overlooked.
In
this
study,
two
fractions
(F1
and
F2)
were
obtained
by
extraction
with
ethyl
acetate
petroleum
ether
sequence.
Lignin
characterization,
cellulase
hydrolysis
investigation,
computer
simulation
evaluation
then
conducted.
results
showed
that
F2
had
rigid
molecular
chain
appeared
as
large
loose
packing
density.
Under
electrostatic
interactions,
aromatic
rings
extended
outward.
It
provided
more
binding
sites
for
cellulase,
such
phenolic
hydroxyl
groups,
which
made
inhibitory
effect
significant.
short,
was
first
proposed
critical
factor
affecting
cellulose.
Although
current
morphological
model
is
not
comprehensive
enough,
it
provides
new
insight
study
between
cellulase.
Applied Sciences,
Год журнала:
2024,
Номер
14(17), С. 7662 - 7662
Опубликована: Авг. 30, 2024
Plant-based
waste
biomass
with
lignocellulose
as
an
important
component
is
produced
in
large
quantities
worldwide
every
year.
The
components
of
that
typically
exhibit
high
utilization
value
include
cellulose
and
hemicellulose,
well
pentoses
hexoses
derived
from
their
hydrolysis.
As
a
pretreatment
for
the
hydrolysis
process,
delignification
pivotal
step
to
enhance
cellulose/hemicellulose
accessibility
achieve
yields
fermentable
sugars.
Additionally,
deep
eutectic
solvents
(DESs)
are
most
widely
used
during
fractionation
due
clean
environmentally
friendly
attributes.
DESs
dissolve
lignin
by
inducing
amount
β-O-4
bond
cleavage
partial
carbon–carbon
cleavage,
retaining
solid
residue,
while
hemicellulose
hydrolyzed
DES
pretreatment.
This
article
provides
comprehensive
review
influence
separation
process.
Key
factors
such
removal
rate,
sugar
conversion
product
chemical
structure
critically
reviewed
assess
feasibility
employing
separation.
