Nanoscale,
Год журнала:
2023,
Номер
15(38), С. 15472 - 15512
Опубликована: Янв. 1, 2023
Hydrophilic
antifouling
polymers
are
important
materials
for
nanomedicine
and
surface
modification
applications.
In
this
review,
we
discuss
their
structures,
properties,
function
in
the
context
of
recent
nanoscale
Regenerative Biomaterials,
Год журнала:
2023,
Номер
10
Опубликована: Янв. 1, 2023
Abstract
Atherosclerosis
(AS)
has
emerged
as
one
of
the
prevalent
arterial
vascular
diseases
characterized
by
plaque
and
inflammation,
primarily
causing
disability
mortality
globally.
Drug
therapy
remains
main
treatment
for
AS.
However,
a
series
obstacles
hinder
effective
drug
delivery.
Nature,
from
natural
micro-/nano-structural
biological
particles
like
cells
extracellular
vesicles
to
distinctions
between
normal
pathological
microenvironment,
offers
compelling
solutions
efficient
Nature-inspired
nanocarriers
synthetic
stimulus-responsive
materials
components,
such
lipids,
proteins
membrane
structures,
have
promising
candidates
fulfilling
delivery
needs.
These
offer
several
advantages,
including
prolonged
blood
circulation,
targeted
delivery,
specific
controlled
release
at
action
site.
In
this
review,
we
discuss
nature-inspired
which
leverage
properties
or
microenvironment
improve
atherosclerotic
therapy.
Finally,
provide
an
overview
challenges
opportunities
applying
these
innovative
nanocarriers.
ACS Catalysis,
Год журнала:
2023,
Номер
13(23), С. 15493 - 15504
Опубликована: Ноя. 16, 2023
Precise
and
efficient
management
of
disulfide
bonds
will
offer
multiple
merits
for
the
development
organosulfur
chemistry,
pharmacology,
life
sciences.
However,
current
S–S
coupling
synthesis
strategy
encounters
bottlenecks
in
conforming
to
separation
products,
which
limits
its
industrial-scale
application.
In
view
superoxide
radical-triggered
reaction
mechanism
coupling,
this
study
demonstrates
a
multifunctional
situ-assembled
0D/1D
S-scheme
heterojunction
photocatalyst
(MAPB-T-COF)
constructed
by
MAPbBr3
quantum
dots
imine
covalent
organic
framework
(COF)
nanowires
under
guidance
band
engineering
management.
MAPB-T-COF
exhibits
superior
photocatalytic
performance
conversion
4-methylbenzenethiol
(4-MBT)
p-tolyl
(PTD)
blue
LED
illumination.
Specifically,
it
achieves
an
impressive
100%
yield
with
record
photon
efficiency
as
high
12.76%,
well
universal
availability
various
derivatives,
rivaling
all
incumbent
similar
systems.
This
not
only
highlights
effectiveness
nanoscale
photocatalysis
but
also
perfect
trade-off
between
efficiencies
strong
chemical
redox
potentials.
addition,
free
radical
that
triggers
was
monitored
situ
electron
paramagnetic
resonance
(EPR)
instrument,
provided
meaningful
insights
into
mechanism.
may
inspire
photoelectric
devices,
photoelectrodes,
photocatalysts
utilizing
nanoscale,
low-dimensional
heterojunctions.
