Accounts of Materials Research,
Год журнала:
2024,
Номер
5(6), С. 739 - 751
Опубликована: Апрель 25, 2024
ConspectusThe
success
of
living
systems
lies
in
using
mild
conditions
to
construct
diverse
structures
by
reducing
energy
barriers
that
need
be
overcome.
However,
the
most
powerful
processing
methods
developed
humans,
such
as
integrated
die
casting
and
additive
manufacturing,
are
either
energy-consuming
or
time-consuming.
Hence,
it
is
very
attractive
environmentally
friendly
use
simple,
prebuilt,
programmable
components
transform
them
into
with
various
functions
methods.
Dynamic
covalent
bonds,
which
can
entire
structure
breaking
a
few
low-energy
bonds
material,
reduce
required
input
dissipated
when
constructing
ordered
structures,
making
an
important
tool
for
developing
materials
conditions.The
challenges
this
field
lie
improving
accessibility,
efficiency,
batch-processing
capability.
The
establishment
order
relies
critically
on
selective
dissipation.
In
context,
"order"
refers
thermodynamic
state
deviates
from
equilibrium,
exemplified
temperature
gradient
specific
spatial
distribution
particles,
simultaneously
increases
systemic
reduces
entropy.
To
forge
dissipation
must
rather
than
uniform.
selectivity
necessitates
patterned
inputs
stimuli,
digital
light
processing,
templating,
inherently
customized
thus
not
readily
scalable
mass
industrial
production.
Consequently,
pivotal
solution
minimizing
reliance
stimuli.
For
example,
accessibility
scalability
flood
illumination
superior
processing.
Concurrently,
usage
we
increase
rate
between
multiple
together
essential
aspect
efficiency.This
Account
summarizes
how
our
research
group
uses
dissipative
characteristics
selenium
information
density
achieve
two-dimensional
plane
three-dimensional
space.
process,
propose
series
unique
strategies
programming,
interfacial,
unconstrained,
modular
These
improve
ultimately
time
programming
nonpatterned
stimuli
within
minutes.
Moreover,
also
look
forward
perspective
chemical
design
illustrate
its
derived
dynamic
accelerate
dissipation,
difference
nondissipation
areas,
further
seconds.
Science,
Год журнала:
2025,
Номер
388(6747), С. 616 - 623
Опубликована: Май 8, 2025
Three-dimensional
printing
offers
promise
for
patient-specific
implants
and
therapies
but
is
often
limited
by
the
need
invasive
surgical
procedures.
To
address
this,
we
developed
an
imaging-guided
deep
tissue
in
vivo
sound
(DISP)
platform.
By
incorporating
cross-linking
agent–loaded
low-temperature–sensitive
liposomes
into
bioinks,
DISP
enables
precise,
rapid,
on-demand
of
diverse
functional
biomaterials
using
focused
ultrasound.
Gas
vesicle–based
ultrasound
imaging
provides
real-time
monitoring
allows
customized
pattern
creation
live
animals.
We
validated
successfully
near
diseased
areas
mouse
bladder
within
rabbit
leg
muscles
vivo,
demonstrating
its
potential
localized
drug
delivery
replacement.
DISP’s
ability
to
print
conductive,
drug-loaded,
cell-laden,
bioadhesive
demonstrates
versatility
biomedical
applications.
The Innovation Life,
Год журнала:
2024,
Номер
2(2), С. 100074 - 100074
Опубликована: Янв. 1, 2024
<p>Ultrasound,
an
exogenous
physical
stimulus,
has
important
application
prospects
in
the
field
of
regenerative
medicine,
especially
skin
regeneration,
due
to
its
safety,
controllability,
and
deep
penetration
depth.
This
review
examines
potential
ultrasound
therapy
promoting
regeneration
by
exploring
effects
on
cells,
mechanisms
action
responsive
materials.
With
tissue
excellent
biocompatibility,
presents
attractive
option
for
enhancing
wound
healing
regeneration.
By
discussing
current
challenges
future
prospects,
this
offers
insights
guide
development
innovative
ultrasound-based
approaches
clinical
treatment.</p>
Advanced Materials,
Год журнала:
2024,
Номер
unknown
Опубликована: Июль 23, 2024
Abstract
Implantable
medical
devices
(IMDs),
like
pacemakers
regulating
heart
rhythm
or
deep
brain
stimulators
treating
neurological
disorders,
revolutionize
healthcare.
However,
limited
battery
life
necessitates
frequent
surgeries
for
replacements.
Ultrasound
power
transfer
(UPT)
emerges
as
a
promising
solution
sustainable
IMD
operation.
Current
research
prioritizes
implantable
materials,
with
less
emphasis
on
sound
field
analysis
and
maximizing
energy
during
wireless
delivery.
This
review
addresses
this
gap.
A
comprehensive
of
UPT
technology,
examining
cutting‐edge
system
designs,
particularly
in
supply
efficiency
is
provided.
The
critically
examines
existing
models,
summarizing
the
key
parameters
influencing
transmission
systems.
For
first
time,
an
flow
diagram
general
proposed
to
offer
insights
into
overall
functioning.
Additionally,
explores
development
stages
showcasing
representative
designs
applications.
remaining
challenges,
future
directions,
exciting
opportunities
associated
are
discussed.
By
highlighting
importance
IMDs
advanced
functions
biosensing
closed‐loop
drug
delivery,
well
UPT's
potential,
aims
inspire
further
advancements
field.
Accounts of Materials Research,
Год журнала:
2024,
Номер
5(6), С. 739 - 751
Опубликована: Апрель 25, 2024
ConspectusThe
success
of
living
systems
lies
in
using
mild
conditions
to
construct
diverse
structures
by
reducing
energy
barriers
that
need
be
overcome.
However,
the
most
powerful
processing
methods
developed
humans,
such
as
integrated
die
casting
and
additive
manufacturing,
are
either
energy-consuming
or
time-consuming.
Hence,
it
is
very
attractive
environmentally
friendly
use
simple,
prebuilt,
programmable
components
transform
them
into
with
various
functions
methods.
Dynamic
covalent
bonds,
which
can
entire
structure
breaking
a
few
low-energy
bonds
material,
reduce
required
input
dissipated
when
constructing
ordered
structures,
making
an
important
tool
for
developing
materials
conditions.The
challenges
this
field
lie
improving
accessibility,
efficiency,
batch-processing
capability.
The
establishment
order
relies
critically
on
selective
dissipation.
In
context,
"order"
refers
thermodynamic
state
deviates
from
equilibrium,
exemplified
temperature
gradient
specific
spatial
distribution
particles,
simultaneously
increases
systemic
reduces
entropy.
To
forge
dissipation
must
rather
than
uniform.
selectivity
necessitates
patterned
inputs
stimuli,
digital
light
processing,
templating,
inherently
customized
thus
not
readily
scalable
mass
industrial
production.
Consequently,
pivotal
solution
minimizing
reliance
stimuli.
For
example,
accessibility
scalability
flood
illumination
superior
processing.
Concurrently,
usage
we
increase
rate
between
multiple
together
essential
aspect
efficiency.This
Account
summarizes
how
our
research
group
uses
dissipative
characteristics
selenium
information
density
achieve
two-dimensional
plane
three-dimensional
space.
process,
propose
series
unique
strategies
programming,
interfacial,
unconstrained,
modular
These
improve
ultimately
time
programming
nonpatterned
stimuli
within
minutes.
Moreover,
also
look
forward
perspective
chemical
design
illustrate
its
derived
dynamic
accelerate
dissipation,
difference
nondissipation
areas,
further
seconds.
