Antibiotics,
Год журнала:
2024,
Номер
13(12), С. 1212 - 1212
Опубликована: Дек. 13, 2024
The
indole
nucleus
stands
out
as
a
pharmacophore,
among
other
aromatic
heterocyclic
compounds
with
remarkable
therapeutic
properties,
such
benzimidazole,
pyridine,
quinoline,
benzothiazole,
and
others.
Moreover,
series
of
recent
studies
refer
to
strategies
for
the
synthesis
bisindole
derivatives,
various
medicinal
antimicrobial,
antiviral,
anticancer,
anti-Alzheimer,
anti-inflammatory,
antioxidant,
antidiabetic,
etc.
Also,
natural
are
mentioned
in
literature
their
biological
properties
starting
point
related
bisindoles.
Drawing
from
these
data,
we
have
proposed
this
review
provide
an
overview
techniques
qualities
bisindolic
that
been
2010
2024
well
numerous
uses
chemistry
materials,
nanomaterials,
dyes,
polymers,
corrosion
inhibitors.
Flexible
on-skin
electronics
present
tremendous
popularity
in
intelligent
electronic
skins
(e-skins),
healthcare
monitoring,
and
human-machine
interfaces.
However,
the
reported
e-skins
can
hardly
provide
high
permeability,
good
stretchability,
large
sensitivity
are
limited
long-term
stability
efficient
recyclability
when
worn
on
human
body.
Herein,
inspired
from
skin,
a
permeable,
stretchable,
recyclable
cellulose
aerogel-based
system
is
developed
by
sandwiching
screen-printed
silver
sensing
layer
between
biocompatible
CNF/HPC/PVA
(cellulose
nanofiber/hydroxypropyl
cellulose/poly(vinyl
alcohol))
aerogel
hypodermis
permeable
polyurethane
as
epidermis
layer.
The
displays
tensile
strength
of
1.14
MPa
strain
43.5%
while
maintaining
permeability.
embrace
appealing
performances
with
(gauge
factor
≈
238),
ultralow
detection
limit
(0.1%),
fast
response
time
(18
ms)
under
stimulus.
Owing
to
disconnection
reconnection
microcracks
layer,
both
strain/humidity
thermal
be
easily
achieved.
further
integrated
into
an
mask
for
patient-centered
power
supply
system,
switching
control
device,
wireless
Bluetooth
module.
Moreover,
prepared
enables
wearing
skin
without
irritation,
all
components
recaptured/reused
water.
This
material
strategy
highlights
potential
next-generation
permeability
environmental
friendliness.
Heliyon,
Год журнала:
2025,
Номер
11(3), С. e41654 - e41654
Опубликована: Янв. 8, 2025
The
importance
of
nanocomposites
constantly
attains
attention
because
their
unique
properties
all
across
the
fields
especially
in
medical
perspectives.
study
green-synthesized
has
grown
to
be
extremely
fascinating
field
research.
Nanocomposites
are
more
promising
than
mono-metallic
nanoparticles
they
exhibit
synergistic
effects.
This
review
encapsulates
current
development
formulation
plant-mediated
by
using
several
plant
species
and
impact
secondary
metabolites
on
biocompatible
functioning.
Phyto-synthesis
produces
diverse
nanomaterials
with
biocompatibility,
environment-friendliness,
vivo
actions,
characterized
varying
sizes,
shapes,
biochemical
nature.
process
is
advantageous
conventional
physical
chemical
procedures.
New
studies
have
been
conducted
determine
biomedical
efficacy
against
various
diseases.
Unfortunately,
there
inadequate
investigation
into
green-assisted
nanocomposites.
Incorporating
phytosynthesized
therapeutic
interventions
not
only
enhances
healing
processes
but
also
augments
host's
immune
defenses
infections.
highlights
phytosynthesis
applications,
including
antibacterial,
antidiabetic,
antiviral,
antioxidant,
antifungal,
anti-cancer,
other
as
well
toxicity.
explores
mechanistic
action
achieve
designated
tasks.
Biogenic
for
multimodal
imaging
potential
exchange
methods
materials
Well-designed
utilized
innovative
theranostic
agents
subsequent
objective
efficiently
diagnosing
treating
a
variety
human
disorders.
Scientific Reports,
Год журнала:
2024,
Номер
14(1)
Опубликована: Авг. 24, 2024
In
this
study,
thermoplastic
starch
(TPS)
biofilms
were
developed
using
isolated
from
the
seeds
of
Melicoccus
bijugatus
(huaya)
and
reinforced
with
bentonite
clays
at
concentrations
1%,
3%,
5%
by
weight.
Novelty
research
lies
in
utilizing
a
non-conventional
source
enhancing
properties
TPS
through
clay
reinforcement.
FTIR
analysis
verified
bentonite's
nature
clays,
while
SEM
provided
insights
into
morphology
agglomeration
behavior.
Key
findings
include
notable
increase
biofilm
thickness
elastic
modulus
higher
content.
Specifically,
tensile
strength
improved
2.5
MPa
for
pure
to
5.0
The
increased
25
60
(5%
clay).
Thermal
stability
also
showed
enhancement,
initial
degradation
temperature
increasing
110
°C
130
clay.
Water
vapor
permeability
(WVP)
tests
demonstrated
decrease
WVP
values
4.11
×
10−10
g
m−1
s−1
Pa−1
2.09
s−1·Pa−1
clay,
indicating
significant
barrier
effect
due
dispersion.
These
results
suggest
that
based
on
huaya
have
considerable
potential
sustainable
food
packaging
applications,
offering
enhanced
mechanical
properties.
ACS Applied Nano Materials,
Год журнала:
2024,
Номер
7(9), С. 10168 - 10181
Опубликована: Апрель 24, 2024
Developing
nanomaterial-based
leather
chemicals
with
multifunctional
smart
properties
and
biocompatibility
for
crafting
high-quality
products
poses
a
significant
challenge.
The
double
layer
formation
of
silica
an
amine
vinyl
sulfone
terminal
created
metal-free
robust
oil
deliverable
nanocapsules
(Si–O
Si-OVS).
hydroamination
yielded
distinctive
flower-like
structure
within
core–shell
model.
This
model
encompasses
silica–oil
core
surrounded
by
shell
incorporating
sulfone.
intricate
synthesis
results
in
the
encapsulation
larger
quantity
oil,
making
it
suitable
to
serve
as
softening
agent
applications.
Two
capsule
types
were
developed:
one
low
content
terminals
collagen
stabilization
another
high
lubrication.
efficacy
Si–O
Si-OVS
has
been
demonstrated
through
their
application
processing,
revealing
noteworthy
improvements
over
conventional
organic
(conventional
tanning)
metal-based
tanning
agents.
treated
exhibits
enhanced
tensile
strength,
tear
resistance,
softness.
enhancement
is
attributed
chemical
bonds
between
carboxyl
groups
present
fibers
instead
electrostatic
interactions.
Additionally,
cytotoxicity
evaluated,
no
toxicity
toward
fibroblast
cell
line
confirming
biocompatible
nature
prepared
nanocapsules.
oil-deliverable
address
challenges
process,
enabling
delivery
into
three-dimensional
matrix,
thereby
contributing
production
leather.
Molecules,
Год журнала:
2025,
Номер
30(6), С. 1255 - 1255
Опубликована: Март 11, 2025
In
recent
years,
vast
amounts
of
plastic
waste
have
been
released
into
the
environment
worldwide,
posing
a
severe
threat
to
human
health
and
ecosystems.
Despite
partial
success
traditional
management
technologies,
their
limitations
underscore
need
for
innovative
approaches.
This
review
provides
comprehensive
overview
advancements
in
chemical
biological
technologies
converting
utilizing
waste.
Key
topics
include
technical
parameters,
characteristics,
processes,
reaction
mechanisms
underlying
these
emerging
technologies.
Additionally,
highlights
importance
conducting
economic
analyses
life
cycle
assessments
offering
valuable
insights
establishing
robust
foundation
future
research.
By
leveraging
literature
from
last
five
this
explores
approaches,
such
as
hydrolysis,
hydrogenolysis,
alcoholysis,
ammonolysis,
pyrolysis,
photolysis,
which
break
down
high-molecular-weight
macromolecules
oligomers
or
small
molecules
by
cracking
depolymerizing
specific
groups
within
molecules.
It
also
examines
methods,
including
microbial
enzymatic
degradation,
employs
microorganisms
enzymes
convert
through
degradation
assimilation
mechanisms.
The
concludes
discussing
research
directions
focused
on
addressing
technological,
economic,
scalability
challenges
with
strong
commitment
promoting
sustainable
solutions
achieving
lasting
environmental
impact.
