International Journal of Precision Engineering and Manufacturing,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 15, 2025
Abstract
Smart
adhesives
with
engineered
mechanical
structures
have
emerged
as
a
transformative
technology
broad
applications
in
fields
such
wearable
healthcare
devices,
bioengineering,
and
soft
robotics.
By
integrating
advanced
architectures
like
kirigami,
tessellations,
multilayered
designs,
these
exhibit
enhanced
surface
properties
that
lead
to
superior
interfacial
adhesion.
Such
designs
offer
critical
advantages—improved
stretchability,
substrate
conformability,
increased
adhesion
strength—over
conventional
adhesives.
This
review
explores
the
range
of
used
smart
demonstrates
how
innovations
address
limitations
traditional
Additionally,
we
discuss
their
flexible
electronics,
Materials Horizons,
Journal Year:
2024,
Volume and Issue:
11(15), P. 3539 - 3547
Published: Jan. 1, 2024
Inspired
by
the
adhesive
capabilities
of
snails,
this
work
successfully
develops
a
touch-initiated
hydrogel
that
exhibits
remarkable
on-demand
adhesion
on
diverse
range
surfaces.
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Oct. 20, 2024
Abstract
Skin‐interfaced
electronics
have
emerged
as
a
promising
frontier
in
personalized
healthcare.
However,
existing
skin‐interfaced
patches
often
struggle
to
simultaneously
achieve
robust
skin
adhesion,
adaptability
dynamic
body
motions,
seamless
integration
of
bulky
devices,
and
on‐demand,
damage‐free
detachment.
Here,
hybrid
strategy
that
synergistically
combines
these
critical
features
within
thin,
flexible
patch
platform
is
introduced.
This
design
leverages
shape
memory
polymers
(SMPs)
arranged
tessellated
array,
comprising
both
rigid
compliant
SMPs.
configuration
enables
exceptional
deformability,
motion
adaptability,
ultra‐strong,
repeatable
adhesion
while
offering
on‐demand
control.
Furthermore,
the
facilitates
without
compromising
adhesion.
By
incorporating
sizeable
including
signal
acquisition
circuits,
sensors,
battery,
it
demonstrated
proposed
can
be
securely
mounted
on
skin,
accommodate
precisely
detect
physiological
signals
with
an
outstanding
signal‐to‐noise
ratio
(SNR),
wirelessly
transmit
data,
effortlessly
released
from
skin.
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Sept. 1, 2024
Abstract
Metal‐to‐metal
adhesives
are
vital
across
diverse
sectors
including
automotive,
aerospace,
and
industrial
assembly.
However,
traditional
adhesion
detection
methods
mainly
based
on
the
fracture
mechanism,
posing
challenges
for
nondestructive
detection.
Here,
a
method
that
leverages
electrical
signals
to
monitor
state
of
metal
interfaces
in
real‐time
is
presented.
The
approach
utilizes
detectable
(DA)
synthesized
from
poly(ionic
liquid)
(PIL),
which
not
only
exhibit
robust
properties
(4.9
MPa)
but
also
function
as
ionic
conductors.
By
correlating
changes
capacitance
resistance
with
adhesive
state,
allows
situ
monitoring
curing
process,
prediction
strength,
early
potential
failures.
This
dual‐sensing
capability,
combining
mechanical
aspects,
enhances
understanding
behavior
conditions,
presenting
fresh
digitally
transforming
technologies.
International Journal of Precision Engineering and Manufacturing,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 15, 2025
Abstract
Smart
adhesives
with
engineered
mechanical
structures
have
emerged
as
a
transformative
technology
broad
applications
in
fields
such
wearable
healthcare
devices,
bioengineering,
and
soft
robotics.
By
integrating
advanced
architectures
like
kirigami,
tessellations,
multilayered
designs,
these
exhibit
enhanced
surface
properties
that
lead
to
superior
interfacial
adhesion.
Such
designs
offer
critical
advantages—improved
stretchability,
substrate
conformability,
increased
adhesion
strength—over
conventional
adhesives.
This
review
explores
the
range
of
used
smart
demonstrates
how
innovations
address
limitations
traditional
Additionally,
we
discuss
their
flexible
electronics,
