Angewandte Chemie International Edition,
Journal Year:
2024,
Volume and Issue:
64(1)
Published: Aug. 28, 2024
Abstract
Clusteroluminescence
(CL)
materials
without
largely
conjugated
structures
have
gained
significant
attention
due
to
their
unique
photophysical
properties
and
potential
in
bioimaging.
However,
low
luminescence
efficiency
short
emission
wavelength
limit
development.
This
work
designs
three
luminogens
with
CL
(CLgens)
by
introducing
n
‐electron‐involved
through‐space
conjugation
(TSC)
into
diarylmethane.
Apart
from
single‐photon
excited
long‐wavelength
(686
nm)
high‐efficiency
(29
%)
CL,
two‐photon
clusteroluminescence
(TPCL)
is
successfully
achieved
such
small
only
two
isolated
heteroatomic
units.
TSC
stabilized
the
aggregate
state
has
been
proven
realize
efficient
spatial
electron
delocalization
similar
conventionally
compounds.
Encouraged
excellent
TPCL
properties,
imaging
of
blood
vessels
vivo
biocompatibility
verification
utilizing
CLgens
are
also
achieved.
illustrates
essential
role
promoting
nonlinear
optical
may
facilitate
further
design
development
next
generation
bioprobes
biocompatibility.
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Sept. 19, 2024
Abstract
Despite
the
extensive
reporting
of
versatile
aggregation‐induced
emission
luminogens
(AIEgens),
boosting
their
molar
extinction
coefficient
(MEC,
ε
≈
10
3
–10
4
M
−1
cm
)
remains
a
formidable
challenge,
which
poses
significant
obstacle
to
achieving
ceiling
output
performance.
In
this
work,
an
“aggrandizing
absorption
reservoir”
approach
is
proposed
designing
AIEgens
with
remarkable
photons‐harvesting
ability,
ultimately
enlarging
its
performance
in
terms
short‐wave
infrared
(SWIR,
900–1700
nm)
and
photothermal
effect.
For
first
time,
(bis‐(borondifluoride)‐8‐imidazodipyrromethene)
(BOIMPY)
unit,
provides
sufficient
rigidity
strong
electron‐withdrawing
ability
by
employing
benzimidazole
as
bridging
ligand
binding
two
BF
2
units,
utilized
fabricate
novel
AIEgen
(TPEB)
that
exhibits
ultrahigh
MEC
up
1.29
×
5
at
828
nm.
To
best
knowledge,
highest
reported
among
near‐infrared
absorption.
Thanks
photon‐harvesting
TPEB
fluorescence
SWIR
region
good
The
as‐prepared
NPs
are
successfully
applied
for
imaging‐guided
antitumor
therapy.
guideline
biomedical
applications.
Advanced Functional Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 21, 2025
Abstract
Photothermal
therapy
(PTT),
as
an
innovative
optical
tumor
treatment
strategy,
is
characterized
by
its
minimal
invasiveness,
high
selectivity,
long‐lasting
efficacy,
and
safety,
has
attracted
widespread
attention.
However,
in
order
to
effectively
kill
cancer
cells,
a
higher
local
temperature
very
necessary,
which
inevitably
results
severe
stress
responses
cell
death,
thereby
triggering
harmful
inflammation.
Additionally,
achieving
effective
controlled
release
of
drugs
the
microenvironment
reduce
systemic
side
effects
still
major
challenge.
Herein,
intelligent
nanoplatform
first
reported,
featured
sulfide
iron
(FeS)
nanosheets
core,
loaded
with
perfluorohexane
(PFH),
skillfully
coated
polydopamine
(PDA).
It
can
serve
generator
reactive
oxygen
species
(ROS)
induce
ferroptosis,
further
intensifying
PTT,
ROS
eliminator
normal
tissue
control
undesired
inflammatory
response
during
differential
strategy
between
surrounding
tissue.
Meanwhile,
combination
ultrasound‐targeted
microbubble
destruction
(UTMD)
technology
significantly
enhanced
penetration
drug.
Overall,
delivery
FeS/PFH@PDA
combined
UTMD
achieve
precise
efficient
synergistic
for
tumors
demonstrate
outstanding
ultrasound
MR
dual‐mode
imaging
performance.
Small,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 24, 2025
Organic
dyes
with
photoluminescence
in
the
second
near-infrared
window
(NIR-II,
1000-1700
nm)
are
promising
for
bioimaging
and
optoelectronic
devices.
Photoluminescence
quantum
yield
(PLQY)
is
a
direct
measure
of
their
performance.
Integrating
sphere
technology
effective
determining
absolute
PLQY.
However,
low
PLQY
values
most
NIR-II
organic
fluorophores
lead
to
significant
measurement
errors.
Therefore,
common
method
determination
relative
approach
using
spectrometer
standard
reference
like
IR-26.
Although
enables
precise
calculation
ratio
between
sample
reference,
specific
value
IR-26
not
clearly
defined
reported
range
from
0.05%
0.50%.
Such
deviation
can
cause
errors
measurements.
In
this
study,
it
that
bright
fluorophore
called
TPE-BBT
exhibits
high
3.94%
THF,
which
be
accurately
measured
commercially
available
integrating
sphere.
Using
as
standard,
1,2-dichloroethane
IR-1061
dichloromethane
determined
0.0284%
0.182%,
respectively.
It
hoped
reliable
will
unify
evaluation
criteria
fluorophores.
Advanced Functional Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 23, 2025
Abstract
Tumor
recurrence
and
wound
infection
present
significant
challenges
to
patient
recovery
following
surgery,
underscoring
the
need
for
effective
therapeutic
strategies
improve
prognosis
by
mitigating
these
complications.
This
study
introduces
novel
synthesis
methods
honeycomb‐like
CuMnOx
nanozymes
CuO
2
nanoflowers
with
multienzymatic
activity
pH‐responsive
properties.
The
enzymatic
activities
of
can
be
regulated
pH
changes
in
tumor
or
microenvironments,
while
overcome
limitation
insufficient
endogenous
H
O
release
ROS
weakly
acidic
conditions.
To
realize
their
synergistic
effects,
nanozymes,
along
photothermal
agent
IR820,
are
co‐assembled
into
low‐melting
point
agarose
solution,
forming
a
thermosensitive
nanozyme‐based
hydrogel
(CuMnOx@CuO
@IR820
hydrogel,
CMCI
Gel),
which
facilitates
controlled
drug
delivery
exerts
enhanced
efficiency
under
low‐temperature
therapy
(LTPTT,
<48
°C).
In
vitro
vivo
studies
demonstrated
that
Gel
effectively
ablated
cells
range
bacteria,
including
drug‐resistant
bacteria
like
MRSA
.
Furthermore,
it
reduces
inflammation,
promotes
vascular
regeneration
collagen
deposition,
accelerates
healing.
injectability
thermosensitivity
allow
localized
treatment,
minimizing
systemic
side
effects.
Overall,
benefits
highlight
as
promising
adjunctive
prevent
postsurgery
infection.
ACS Nano,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 9, 2025
Inspired
by
the
clinical
application
of
thermotherapy
to
promote
efficacy
radiotherapy,
this
study
demonstrates
multimodal
diagnostic
pure
organic
nanoparticles
in
combined
treatment
tumors
through
imaging
and
photothermal
properties.
The
developed
demonstrated
unique
properties
multiple
functionalities,
including
excellent
photostability
thermostability,
strong
fluorescence
emission
near-infrared-II
(NIR-II)
region,
extremely
high
conversion
efficiency,
good
biocompatibility,
significant
radiosensitizing
properties,
effective
tumor
site
accumulation.
In
vitro
vivo
evaluations
that
these
are
ideal
candidates
for
synergistic
radiotherapy
guided
NIR-II
fluorescence,
NIR-I
photoacoustic,
trimodal
imaging.
They
act
as
radiosensitizers
alleviating
hypoxic
microenvironment,
modulating
cell
cycle,
inducing
apoptosis
immunogenic
death
during
which
may
provide
a
potential
approach
tumors.
ACS Nano,
Journal Year:
2024,
Volume and Issue:
18(43), P. 30069 - 30083
Published: Oct. 18, 2024
Electron
acceptor
possessing
strong
electron-withdrawing
ability
and
exceptional
stability
is
crucial
for
developing
donor–acceptor–donor
(D-A-D)
structured
aggregation-induced
emission
luminogens
(AIEgens)
with
second
near-infrared
(NIR-II)
emission.
Although
6,7-diphenyl-[1,2,5]
thiadiazolo
[3,4-g]
quinoxaline
(PTQ)
benzobisthiadiazole
(BBT)
are
widely
employed
as
NIR-II
building
blocks,
they
still
suffer
from
limited
capacity
or
inadequate
chemo-stability
under
alkaline
conditions.
Herein,
a
boron
difluoride
formazanate
(BFF)
utilized
to
construct
AIEgen,
which
exhibits
better
overall
performance
in
terms
of
compared
the
PTQ-
BBT-derived
fluorophores.
With
finely
tuned
intramolecular
motions
D–A
interaction
strength,
TPE-BFF
simultaneously
high
molar
extinction
coefficient
(ε=
4.31
×
104
M–1cm–1),
(Φ
=
0.49%)
photothermal
effect
(η
58.5%),
well
stability.
Thanks
these
merits,
thermosensitive
nanoparticles
constructed
by
integrating
antiglycolytic
agent
2-deoxy-d-glucose
(2DG)
successfully
imaging-guided
antitumor
lung
metastasis
regulating
glycolysis
reducing
ATP-dependent
heat
shock
proteins.
Combining
experimental
results
theoretical
calculations,
BFF
proves
be
an
outstanding
electron
design
versatile
AIEgens.
Overall,
this
study
offers
promising
alternative
multifunctional
AIEgens
biomedical
applications.
Aggregate,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 15, 2025
ABSTRACT
Postoperative
pain
and
tumor
recurrence
are
critical
challenges
following
malignant
resection.
To
address
these
issues,
we
developed
a
supramolecular
gel
delivery
system
loaded
with
ropivacaine
microcrystals
(RopC
Gel).
Using
PEG400
as
the
solvent,
successfully
screened
identified
matrix
materials
capable
of
forming
hydrogels
through
heating–cooling
process.
By
strategically
leveraging
hydrophilic
hydrophobic
properties
matrix,
controlled
its
mechanical
strength
degradation
rate
by
adjusting
ratio
to
components,
resulting
in
degradable,
injectable,
self‐healing
system.
In
both
rat
plantar
incision
mouse
resection
models,
RopC
Gel
provided
long‐lasting
analgesia
for
up
5
days.
Notably,
tumor‐resected
mice
treated
demonstrated
extended
survival
slower
progression.
Further
vitro
vivo
experiments
revealed
that
affects
mitochondrial
function
promoting
accumulation
reactive
oxygen
species
cells,
inducing
pyroptosis,
stimulating
immunogenic
cell
death
(ICD),
activating
anti‐tumor
immune
responses.
This
work
offers
an
innovative
solution
postoperative
management.
Additionally,
controllable
outlined
this
study
provide
efficient
strategy
release
multiple
drugs,
potential
widespread
clinical
applications.
Angewandte Chemie,
Journal Year:
2024,
Volume and Issue:
137(1)
Published: Aug. 28, 2024
Abstract
Clusteroluminescence
(CL)
materials
without
largely
conjugated
structures
have
gained
significant
attention
due
to
their
unique
photophysical
properties
and
potential
in
bioimaging.
However,
low
luminescence
efficiency
short
emission
wavelength
limit
development.
This
work
designs
three
luminogens
with
CL
(CLgens)
by
introducing
n
‐electron‐involved
through‐space
conjugation
(TSC)
into
diarylmethane.
Apart
from
single‐photon
excited
long‐wavelength
(686
nm)
high‐efficiency
(29
%)
CL,
two‐photon
clusteroluminescence
(TPCL)
is
successfully
achieved
such
small
only
two
isolated
heteroatomic
units.
TSC
stabilized
the
aggregate
state
has
been
proven
realize
efficient
spatial
electron
delocalization
similar
conventionally
compounds.
Encouraged
excellent
TPCL
properties,
imaging
of
blood
vessels
vivo
biocompatibility
verification
utilizing
CLgens
are
also
achieved.
illustrates
essential
role
promoting
nonlinear
optical
may
facilitate
further
design
development
next
generation
bioprobes
biocompatibility.
Materials Today Bio,
Journal Year:
2024,
Volume and Issue:
29, P. 101308 - 101308
Published: Oct. 24, 2024
Surgery
is
one
of
the
primary
treatments
for
solid
tumors.
However,
incomplete
resection
tumor
cells
and
immunosuppressive
microenvironment
make
issue
postsurgical
recurrence
a
great
challenge.
Furthermore,
wide
range
requirements,
including
ensuring
effective
hemostasis,
implementing
prophylactic
measures
against
infection,
promoting
wound
healing,
were
also
raised
in
management
To
fulfill
these
demands,
multiple
hydrogel
local
drug
delivery
systems
(HLDDS)
developed
recently.
These
HLDDS
are
expected
to
offer
numerous
advantages
tumors,
such
as
achieving
high
concentrations
at
lesion,
efficient
surgical
microcavities,
mitigating
systemic
side
effects,
addressing
diverse
demand.
Thus,
this
review,
detailed
discussion
demands
tumors
provided.
And
current
publication
trend
on
analyzed
discussed.
Then,
applications
different
types
HLDDS,
