Supramolecular Materials,
Journal Year:
2023,
Volume and Issue:
2, P. 100032 - 100032
Published: Feb. 10, 2023
Adhesive
bonding
to
diverse
substances
is
vital
a
great
number
of
the
established,
cutting-edge
and
emerging
applications.
We
have
witnessed,
in
last
few
years,
transformative
progress
achieving
robust
adhesive
tunable
debonding
behavior,
which
mostly
employing
supramolecular
forces.
Among
forces,
contribution
hydrogen-bonds
(H-bonds)
adhesives,
on
modality
directionality,
selectivity
sensitivity,
can
function
as
nano-scaled
agents
for
improved
interfacial
interactions,
thus
paved
novel
perspectives
design
creation
glue
materials
with
outstanding
performance.
On
account
dynamic
reversible
feature,
characteristic
principally
determined
H-bonding
(macro)molecules
could
be
employed
platform
affording
attaching,
connecting
demand
disconnecting,
arising
from
combination
adhesion/cohesion
process
via
interactions
responsive
characteristics.
Thus,
H-bonded
adhesives
abundant
molecular
configuration
furnish
rich
toolbox
that
fulfill
universal
yet
specific
needs
unique
advantages,
demonstrating
opportunities
fundamental
researches
practical
Herein
we
outline
summarize
attaching/detaching,
applications
advanced
materials.
propose
guidance
further
designing
concert
biomedical
science,
physics,
mechanical
electric,
informatics
or
robotics
promising
future.
Materials Chemistry Frontiers,
Journal Year:
2023,
Volume and Issue:
7(16), P. 3278 - 3297
Published: Jan. 1, 2023
A
flexible
sensor
is
a
key
part
of
intelligent
wearable
devices.
The
design
micro–nano
structured
materials
in
sensors
crucial.
Therefore,
the
recent
application
devices
summarized.
Supramolecular Materials,
Journal Year:
2023,
Volume and Issue:
2, P. 100032 - 100032
Published: Feb. 10, 2023
Adhesive
bonding
to
diverse
substances
is
vital
a
great
number
of
the
established,
cutting-edge
and
emerging
applications.
We
have
witnessed,
in
last
few
years,
transformative
progress
achieving
robust
adhesive
tunable
debonding
behavior,
which
mostly
employing
supramolecular
forces.
Among
forces,
contribution
hydrogen-bonds
(H-bonds)
adhesives,
on
modality
directionality,
selectivity
sensitivity,
can
function
as
nano-scaled
agents
for
improved
interfacial
interactions,
thus
paved
novel
perspectives
design
creation
glue
materials
with
outstanding
performance.
On
account
dynamic
reversible
feature,
characteristic
principally
determined
H-bonding
(macro)molecules
could
be
employed
platform
affording
attaching,
connecting
demand
disconnecting,
arising
from
combination
adhesion/cohesion
process
via
interactions
responsive
characteristics.
Thus,
H-bonded
adhesives
abundant
molecular
configuration
furnish
rich
toolbox
that
fulfill
universal
yet
specific
needs
unique
advantages,
demonstrating
opportunities
fundamental
researches
practical
Herein
we
outline
summarize
attaching/detaching,
applications
advanced
materials.
propose
guidance
further
designing
concert
biomedical
science,
physics,
mechanical
electric,
informatics
or
robotics
promising
future.
