Advanced Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: May 16, 2025
Abstract
The
rapidly
advancing
field
of
theranostics
aims
to
integrate
therapeutic
and
diagnostic
functionalities
into
a
single
platform
for
precision
medicine,
enabling
the
simultaneous
treatment
monitoring
diseases.
Photo‐energy
conversion‐based
nanomaterials
have
emerged
as
versatile
that
utilizes
unique
properties
light
activate
with
high
spatial
temporal
precision.
This
review
provides
comprehensive
overview
recent
developments
in
photo‐energy
conversion
using
nanomaterials,
highlighting
their
applications
disease
theranostics.
discussion
begins
by
exploring
fundamental
principles
including
types
materials
used
various
light‐triggered
mechanisms,
such
photoluminescence,
photothermal,
photoelectric,
photoacoustic,
photo‐triggered
SERS,
photodynamic
processes.
Following
this,
delves
broad
spectrum
emphasizing
role
diagnosis
major
diseases,
cancer,
neurodegenerative
disorders,
retinal
degeneration,
osteoarthritis.
Finally,
challenges
opportunities
technologies
are
discussed,
aiming
advance
personalized
medicine.
Advanced Functional Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 13, 2025
Abstract
Theranostic
probes
that
integrate
diagnosis
and
treatment
together
are
considered
as
effective
tools
for
individual
therapy.
However,
the
separation
of
detection
components
limits
precise
assessment
therapeutic
efficacy.
Herein,
a
novel
self‐monitoring
probe
sensitively
responds
to
adenosine
triphosphate
(ATP)
was
developed
by
ultrafine
iron
oxide
nanowires
(UIONWs)
through
an
oleyl
amine‐assisted
way.
The
UIONWs,
with
diameter
1.5
nm
length
75
nm,
surface‐coordinated
amine.
UIONWs
can
be
decomposed
in
ATP‐containing
solution
expose
shielded
ions.
Consequently,
it
boost
peroxidase
(POD)
activity
activate
T
1
‐magnetic
resonance
imaging
(MRI)
signal
ATP.
In
addition,
rapidly
engulfed
into
cells
due
high
aspect
ratio.
improved
ATP
hydrogen
peroxide
(H
2
O
)
within
tumor
leads
higher
hydroxyl
radicals
(OH)
generation
inhibition.In
contrast,
normal
exhibit
lower
H
levels,
reducing
cytotoxicity
ensuring
safety.
Since
both
illumination
‐MRI
OH
ATP‐controlled,
this
work
raised
potential
way
self‐monitor
therapy
timely
feedback
on
effects.
Advanced Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: May 12, 2025
Abstract
Biopolymer‐based
fibrous
aggregate
materials
(BFAMs)
have
gained
increasing
attention
in
biomedicine
due
to
their
excellent
biocompatibility,
processability,
biodegradability,
and
multifunctionality.
Especially,
the
medical
applications
of
BFAMs
demand
advanced
structure,
performance,
function,
which
conventional
trial‐and‐error
methods
struggle
provide.
This
necessitates
rational
selection
manufacturing
design
with
various
intended
functions
structures.
review
summarizes
current
progress
raw
material
selection,
structural
functional
design,
processing
technology,
application
BFAMs.
Additionally,
challenges
encountered
during
development
are
discussed,
along
perspectives
for
future
research
offered.
Advanced Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: May 16, 2025
Abstract
The
rapidly
advancing
field
of
theranostics
aims
to
integrate
therapeutic
and
diagnostic
functionalities
into
a
single
platform
for
precision
medicine,
enabling
the
simultaneous
treatment
monitoring
diseases.
Photo‐energy
conversion‐based
nanomaterials
have
emerged
as
versatile
that
utilizes
unique
properties
light
activate
with
high
spatial
temporal
precision.
This
review
provides
comprehensive
overview
recent
developments
in
photo‐energy
conversion
using
nanomaterials,
highlighting
their
applications
disease
theranostics.
discussion
begins
by
exploring
fundamental
principles
including
types
materials
used
various
light‐triggered
mechanisms,
such
photoluminescence,
photothermal,
photoelectric,
photoacoustic,
photo‐triggered
SERS,
photodynamic
processes.
Following
this,
delves
broad
spectrum
emphasizing
role
diagnosis
major
diseases,
cancer,
neurodegenerative
disorders,
retinal
degeneration,
osteoarthritis.
Finally,
challenges
opportunities
technologies
are
discussed,
aiming
advance
personalized
medicine.
