Bioinspired Adhesives with Debonding-on-Demand Capability
ACS Macro Letters,
Год журнала:
2025,
Номер
unknown, С. 420 - 427
Опубликована: Март 18, 2025
Adhesives
with
debonding-on-demand
(DoD)
capability
can
simplify
and
improve
manufacturing
processes,
extend
the
life
cycle
of
products,
facilitate
recycling,
thus
attracting
fast-growing
interest
for
use
in
different
sectors.
A
general
design
approach
DoD
adhesives
is
based
on
supramolecular
polymers,
which
be
disassembled
by
an
external
stimulus,
allowing
modification
physical
properties
these
materials.
However,
adhesive
strength
generally
limited
to
a
few
megapascals,
their
synthesis
often
quite
involved.
Here,
we
report
that
problems
overcome
family
were
inspired
structure
function
natural
resin
shellac.
These
are
linear
oligomers
bisphenol
diglycidyl
ether
secondary
diamines
have,
despite
widespread
cross-linked
epoxy
thermosets,
remained
unexplored
far.
We
show
if
molecular
weight
limited,
highly
soluble
melt-processable
produced.
Adhesion
tests
performed
lap
joints
made
stainless
steel
substrates
reveal
shear
3.5-16
MPa,
upper
limit
this
range
exceeds
bond
shellac
blueprint
many
previous
adhesives.
demonstrate
debonding
upon
heating
above
glass
transition
temperature
readily
possible
broken
easily
rebond
without
any
loss
strength.
Язык: Английский
Local delivery of MoS2/FeS2 heterojunction by biomolecular microneedles for multimodal therapy of infected wounds
Chemical Engineering Journal,
Год журнала:
2024,
Номер
498, С. 155722 - 155722
Опубликована: Сен. 11, 2024
Язык: Английский
Stretchable and body conformable electronics for emerging wearable therapies
Deleted Journal,
Год журнала:
2024,
Номер
unknown
Опубликована: Ноя. 13, 2024
Abstract
Wearable
therapy
represents
a
research
frontier
where
material
science,
electrical
engineering,
and
medical
disciplines
intersect,
offering
significant
potential
for
remote
portable
healthcare.
Unlike
conventional
approaches
that
rely
on
rigid
materials,
the
ability
to
stretch
is
crucial
therapeutic
devices
achieve
enhanced
mechanical
adaptability.
Moreover,
conformable
integration
of
these
into
body
pivotal
in
establishing
reliable
interfaces
long‐term
treatment.
These
emerging
provide
an
attractive
platform
developing
new
protocols
do
not
disrupt
daily
activities.
This
review
comprehensively
overviews
recent
progress
stretchable
body‐conformable
electronics
wearable
applications.
The
discussion
begins
with
design
fabrication
through
structural
designs
innovation.
mechanisms
adopted
by
are
then
systematically
explored.
Furthermore,
article
delineates
characteristics
devices,
such
as
biocompatibility,
secure
skin
attachment,
effective
moisture
management.
poised
inspire
innovative
device
treatment
future
technology.
Язык: Английский
Microneedles as a Promising Technology for Disease Monitoring and Drug Delivery: A Review
Rashmi Hulimane Shivaswamy,
Pranav Binulal,
Aloysious Benoy
и другие.
ACS Materials Au,
Год журнала:
2024,
Номер
5(1), С. 115 - 140
Опубликована: Ноя. 28, 2024
The
delivery
of
molecules,
such
as
DNA,
RNA,
peptides,
and
certain
hydrophilic
drugs,
across
the
epidermal
barrier
poses
a
significant
obstacle.
Microneedle
technology
has
emerged
prominent
area
focus
in
biomedical
research
because
its
ability
to
deliver
wide
range
biomolecules,
vaccines,
medicines,
other
substances
through
skin.
Microneedles
(MNs)
form
microchannels
by
disrupting
skin's
structure,
which
compromises
function,
facilitating
easy
penetration
drugs
into
These
devices
enhance
administration
many
therapeutic
skin,
enhancing
their
stability.
Transcutaneous
medications
using
microneedle
patch
offers
advantages
over
conventional
drug
methods.
containing
active
can
be
stimulated
different
internal
external
factors
result
regulated
release
substances.
To
achieve
efficient
desired
location,
it
is
necessary
consider
design
needles
with
appropriate
optimized
characteristics.
choice
materials
for
developing
manufacturing
these
vital
determining
pharmacodynamics
pharmacokinetics
delivery.
This
article
provides
most
recent
update
overview
numerous
systems
that
utilize
activators
stimulate
components
from
microneedles.
Further,
discusses
utilized
producing
microneedles
strategies
important
managing
drugs.
An
explanation
commonly
employed
fabrication
techniques
applications
electronics,
particularly
integrated
systems,
discussed.
successfully
implement
clinical
settings,
essential
comprehensively
assess
several
factors,
biocompatibility,
stability,
safety,
production
cost.
Finally,
an
in-depth
review
criteria
difficulties
potential
future
direction
delivering
monitoring
diseases
explored.
Язык: Английский