Advanced Healthcare Materials,
Год журнала:
2024,
Номер
13(29)
Опубликована: Март 20, 2024
Abstract
Chronic
diabetic
wounds
pose
significant
challenges
due
to
uncontrolled
bacterial
infections,
prolonged
inflammation,
and
impaired
angiogenesis.
The
rapid
advancement
of
photo‐responsive
antibacterial
therapy
shows
promise
in
addressing
these
complex
issues,
particularly
utilizing
2D
heterojunction
materials,
which
offer
unique
properties.
Herein,
an
situ
sprayed
Bi/BiOCl
0D/2D
composite
fibrin
gel
with
the
characteristics
formation
effective
near‐infrared
activation
is
designed
for
treatment
non‐healing
diabetes‐infected
wounds.
can
provide
protective
shielding
skin
tissues
promote
endothelial
cell
proliferation,
vascularization,
heterojunction,
its
localized
surface
plasmon
resonance
(LSPR),
overcome
wide
bandgap
limitation
BiOCl,
enhancing
generation
local
heat
reactive
oxygen
species
under
irradiation.
This
facilitates
elimination
reduced
supporting
accelerated
healing
study
underscores
potential
LSPR‐enhanced
heterojunctions
as
advanced
wound
therapies
chronic
Nanoscale Advances,
Год журнала:
2023,
Номер
5(23), С. 6278 - 6317
Опубликована: Янв. 1, 2023
Multidrug-resistant
(MDR)
bacteria-caused
infections
have
been
a
major
threat
to
human
health.
The
abuse
of
conventional
antibiotics
accelerates
the
generation
MDR
bacteria
and
makes
situation
worse.
emergence
nanomaterials
holds
great
promise
for
solving
this
tricky
problem
due
their
multiple
antibacterial
mechanisms,
tunable
spectra,
low
probabilities
inducing
drug
resistance.
In
review,
we
summarize
mechanism
resistance,
introduce
recently
developed
dealing
with
Advanced Healthcare Materials,
Год журнала:
2024,
Номер
13(29)
Опубликована: Март 20, 2024
Abstract
Chronic
diabetic
wounds
pose
significant
challenges
due
to
uncontrolled
bacterial
infections,
prolonged
inflammation,
and
impaired
angiogenesis.
The
rapid
advancement
of
photo‐responsive
antibacterial
therapy
shows
promise
in
addressing
these
complex
issues,
particularly
utilizing
2D
heterojunction
materials,
which
offer
unique
properties.
Herein,
an
situ
sprayed
Bi/BiOCl
0D/2D
composite
fibrin
gel
with
the
characteristics
formation
effective
near‐infrared
activation
is
designed
for
treatment
non‐healing
diabetes‐infected
wounds.
can
provide
protective
shielding
skin
tissues
promote
endothelial
cell
proliferation,
vascularization,
heterojunction,
its
localized
surface
plasmon
resonance
(LSPR),
overcome
wide
bandgap
limitation
BiOCl,
enhancing
generation
local
heat
reactive
oxygen
species
under
irradiation.
This
facilitates
elimination
reduced
supporting
accelerated
healing
study
underscores
potential
LSPR‐enhanced
heterojunctions
as
advanced
wound
therapies
chronic
