Advanced Functional Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 7, 2025
Abstract
Eutectogels,
a
family
of
emerging
materials,
integrate
the
characteristics
deep
eutectic
solvents
(DES)
and
gels,
presenting
unique
application
potential
in
biomedical
engineering.
However,
latest
progress
eutectogels
their
applications
field
remain
to
be
summarized
refined.
This
review
first
introduces
composition
properties
generated
by
interaction
between
DES
gel
matrix.
Subsequently,
classifications
advantages
are
comprehensively
discussed
according
cross‐linked
preparation
methods,
including
physical,
chemical,
multiple
cross‐linked.
By
analyzing
eutectogels,
such
as
mechanical
performance,
thermal
properties,
conductivity,
injectability,
structure‐function
relationships,
is
overviewed.
Then,
eutectogel's
prospects
engineering
elaborated
detail,
drug
delivery
improve
stability
precise
control
release,
enhancing
curative
effects
reducing
side
effects.
Also,
functional
utilization
tissue
engineering,
biosensing,
bioadhesives,
related
domains
explored.
Finally,
existing
challenges
prospective
research
directions
delineated.
Many
natural
products
(NPs)
exhibit
strong
antioxidant
activity,
making
them
valuable
for
various
applications.
In
this
context,
the
emergence
of
deep
eutectic
solvents
(DESs)
is
expected
to
help
address
growing
demand
innovative,
efficient,
and
more
sustainable
methods
NPs
extraction.
DESs
are
designer
that
provide
higher
yields
enhance
activity
extracted
phytochemicals
compared
with
conventional
volatile
organic
solvents.
Antioxidant
naturally
occurring
molecules
can
also
form
DESs,
either
as
hydrogen
bond
donors
(HBD)
or
acceptors
(HBA),
creating
DES
(NADES)
inherent
activity.
Thus,
containing
exert
synergistic
effects,
entire
system
a
promising
active
ingredient
food
industry
The
synergy
arises
from
enhanced
solubilization
stabilization
in
through
bonding,
ionic
interactions,
van
der
Waals
forces.
Collectively,
enable
effectively
neutralize
oxidants
(such
ROS
free
radicals)
regulate
their
reactions
other
molecules,
achieving
up
3-fold
increase
extracts
regular
vitro.
This
Account
overviews
wide
range
resources
using
DESs.
activities
HBA,
HBD,
along
advantageous
coupling
extracts,
thoroughly
discussed.
Finally,
we
envisage
future
directions
potential
applications
harnessing
collective
guide
advances
chemistry.
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Nov. 26, 2024
Abstract
The
performance
of
aqueous
zinc‐ion
batteries
(AZIBs)
at
high
temperatures
(HT)
is
severely
compromised
by
active
water
corrosion,
parasitic
reactions,
and
dendrite
growth.
Herein,
zinc
trifluoroacetate
introduced
a
low
concentration
(0.2
m
),
dissolved
in
triethyl
phosphate
(TEP)and
H
2
O.
suppressed
due
to
the
reconstructed
original
hydrogen
bond
network,
which
helps
inhibit
reactions
severe
corrosion.
Meanwhile,
solid
electrolyte
interphase
(SEI)
formed
on
anode
decomposition
salt.
high‐tolerance
SEI
physically
separates
anode,
reducing
corrosion
caused
water.
Moreover,
TEP,
as
prevalent
fire‐retardant
cosolvent,
can
preferentially
anchor
sheet,
serving
shielding
buffer
layer.
TEP
not
only
reconstructing
structure
electric
double
layer
(EDL),
decreasing
content
water,
but
also
accelerating
prompt
formation
further.
As
proof
this
synergistic
effect,
assembled
symmetric
Zn.
This
review
details
the
extraction,
characterization
and
utilization
of
seaweed-derived
biopolymers
for
future
packaging
applications.
The
is
contextualized
within
broader
scope
challenge
plastic
pollution
current
urgent
need
more
sustainable
materials.
Macroalgae
(or
seaweed)
has
been
highlighted
as
a
promising
source
biopolymers,
most
commonly
sodium
alginate,
agar
carrageenan,
reasons
such
rapid
growth
rate
decreased
environmental
impact
when
compared
to
terrestrial
plant-life.
Extraction
methods
detailed
include
traditional
solvent-based
extraction
developments
ultrasound
assisted
microwave
bead
milling.
additionally
presents
techniques
pertinent
in
determining
applicability
these
Properties
key
importance
development
materials
thermal
properties,
mechanical
strength,
barrier
properties
biodegradability
are
comparison
conventional
petroleum-based
plastics.
concludes
by
realistically
identifying
challenges
faced
implementing
seaweed-based
into
structures,
cost-effectiveness,
scalability,
performance
while
suggesting
directions
mitigate
issues
improve
commercial
viability
industry.
Processes,
Journal Year:
2024,
Volume and Issue:
12(8), P. 1686 - 1686
Published: Aug. 12, 2024
For
plant
metabolite
extraction,
natural
deep
eutectic
solvents
(NADESs)
have
many
benefits
over
conventional
and
ionic
liquids.
These
advantages
include
high
solubility
extraction
ability,
a
low
melting
point
(<100
°C),
toxicity,
environmental
friendliness,
recyclability,
better
biodegradability.
This
study
analyses
solvent
for
Acmella
oleracea
(A.
oleracea)
considering
the
following
process
parameters:
temperature,
component
ratio
in
solvent,
water
addition,
solid/liquid
ratio,
duration.
NADESs
were
synthesised
using
simple
heating
method,
synthesis
of
was
verified
by
Fourier
transform
infrared
spectroscopy
(FTIR).
In
terms
total
polyphenol
content
(TPC)
flavonoid
(TFC),
betaine/propanediol
NADES
1:3
S/L
=
1:5
yielded
highest
efficiency.
A
value
8.37
mg
GAE/mL
obtained
TPC
ultrasound-assisted
with
40%
25
°C
60
min
contact
time.
The
best
result
TFC
14.50
QE/mL
through
0%
added,
Sustainability,
Journal Year:
2024,
Volume and Issue:
16(16), P. 7175 - 7175
Published: Aug. 21, 2024
This
review
details
the
extraction,
characterization
and
utilization
of
seaweed-derived
biopolymers
for
future
packaging
applications.
The
is
contextualized
within
broader
scope
challenge
plastic
pollution
current
urgent
need
more
sustainable
materials.
Macroalgae
(or
seaweed)
has
been
highlighted
as
a
promising
source
biopolymers,
most
commonly
sodium
alginate,
agar
carrageenan,
reasons
such
rapid
growth
rate
decreased
environmental
impact
when
compared
with
terrestrial
plant
life.
Extraction
methods
detailed
include
traditional
solvent-based
extraction
developments
ultrasound-assisted
microwave-assisted
bead
milling.
additionally
presents
techniques
pertinent
in
determining
applicability
these
Properties
key
importance
to
development
materials
thermal
properties,
mechanical
strength,
barrier
properties
biodegradability
are
comparison
conventional
petroleum-based
plastics.
concludes
by
realistically
identifying
challenges
faced
implementing
seaweed-based
into
structures,
cost-effectiveness,
scalability
performance
while
suggesting
directions
mitigate
issues
improve
commercial
viability
industry.
