Flexible
photodetectors
have
attracted
lots
of
interest
due
to
the
advantages
wearability,
portability,
and
implantability,
thus
adapting
various
substrates
or
skin
surfaces
for
wearable
applications.
Organic
semiconductor
materials
are
a
promising
candidate
as
photoactive
layers
their
excellent
photoelectric
properties,
remarkable
mechanical
flexibility,
outstanding
solution
processability.
Currently,
flexible
organic
photodiodes
(OPDs)
made
important
progress
been
comparable
rigid
counterparts
in
terms
partial
device
performance.
In
this
review,
developments
OPDs
from
aspect
detectability
performance
summarized,
including
substrates,
electrodes,
active
layer
films.
Furthermore,
common
applications
like
health
monitoring,
optical
communication,
image
sensing
further
exhibited.
end,
challenges
development
opportunities
prospected.
Chemical Society Reviews,
Journal Year:
2024,
Volume and Issue:
53(3), P. 1316 - 1353
Published: Jan. 1, 2024
Low-dimensional
nanostructures,
with
their
small
size,
unique
characteristics,
flexible/elastic
adaptability,
and
effective
vertical
stacking
capability,
play
a
crucial
role
in
advancing
monolithic
3D-integrated
flexible/stretchable
systems.
Nanoscale,
Journal Year:
2024,
Volume and Issue:
16(10), P. 5079 - 5106
Published: Jan. 1, 2024
Bismuth
oxyiodide
(BiOI)
is
a
kind
of
typical
two-dimensional
(2D)
material
that
has
been
increasingly
developed
alongside
other
2D
materials
such
as
graphene,
MXenes,
and
transition-metal
dichalcogenide.
However,
its
potential
applications
have
not
widely
whispered
compared
to
those
materials.
Using
distinctive
properties,
BiOI
can
be
used
for
various
applications,
especially
when
it
meets
sunlight
light-related
electromagnetic
waves.
In
this
present
review,
we
discuss
the
developments
challenges
in
photodetector
light-assisted
sensors,
photovoltaic
devices,
optoelectronic
logic
well
photocatalysts.
We
start
discussion
with
basic
understanding
development
BiOI,
crystal
structure,
properties.
The
synthesis
further
development,
green
synthesis-suited
industry,
device
integration,
are
also
explained
together
plausible
strategy
enhance
feasibility
applications.
believe
provided
perspectives
will
only
promote
one
highly
considered
but
assist
recent
graduates
any
science
discipline
inform
senior
scientists
industrial-based
stakeholders
latest
advances
bismuth
oxide
mixed-anion
compounds.
Sensors,
Journal Year:
2025,
Volume and Issue:
25(4), P. 1042 - 1042
Published: Feb. 10, 2025
With
the
rapid
development
of
micro-nano
technology
and
wearable
devices,
flexible
photodetectors
(PDs)
have
drawn
widespread
interest
in
areas
such
as
healthcare,
consumer
electronics,
intelligence
interfaces.
Two-dimensional
(2D)
materials
with
layered
structures
excellent
optoelectronic
properties
mechanical
flexibility,
which
attract
a
great
deal
attention
applications.
Although
based
on
mechanically
exfoliated
2D
demonstrated
superior
performance
compared
to
traditional
Si-based
PDs,
large-scale
manufacturing
integration
remain
significant
challenges
for
achieving
industrial
production.
The
emerging
various
printing
provides
low-cost
highly
effective
method
integrated
manufacturing.
In
this
review,
we
comprehensively
introduce
most
recent
progress
printed
material
PDs.
We
first
reviewed
research
photodetectors,
discussion
is
focused
substrate
materials,
functional
figures
merits.
Furthermore,
solution
processing
coupled
film
strategies
produce
PDs
are
summarized.
Subsequently,
applications
image
sensors,
also
Finally,
point
out
potential
expect
work
inspire
promote
mass
process.
Chemical Reviews,
Journal Year:
2024,
Volume and Issue:
124(22), P. 12738 - 12843
Published: Nov. 5, 2024
The
quest
to
imbue
machines
with
intelligence
akin
that
of
humans,
through
the
development
adaptable
neuromorphic
devices
and
creation
artificial
neural
systems,
has
long
stood
as
a
pivotal
goal
in
both
scientific
inquiry
industrial
advancement.
Recent
advancements
flexible
electronics
primarily
rely
on
nanomaterials
polymers
owing
their
inherent
uniformity,
superior
mechanical
electrical
capabilities,
versatile
functionalities.
However,
this
field
is
still
its
nascent
stage,
necessitating
continuous
efforts
materials
innovation
device/system
design.
Therefore,
it
imperative
conduct
an
extensive
comprehensive
analysis
summarize
current
progress.
This
review
highlights
applications
neuromorphics,
involving
inorganic
(zero-/one-/two-dimensional,
heterostructure),
carbon-based
such
carbon
nanotubes
(CNTs)
graphene,
polymers.
Additionally,
comparison
summary
structural
compositions,
design
strategies,
key
performance,
significant
these
are
provided.
Furthermore,
challenges
future
directions
pertaining
materials/devices/systems
associated
neuromorphics
also
addressed.
aim
shed
light
rapidly
growing
attract
experts
from
diverse
disciplines
(e.g.,
electronics,
science,
neurobiology),
foster
further
for
accelerated
development.
Nanoscale Horizons,
Journal Year:
2024,
Volume and Issue:
9(10), P. 1599 - 1629
Published: Jan. 1, 2024
The
applications
of
2D
material
photodetectors
in
extensive
fields,
including
imaging,
health
monitoring,
tracking,
logic
operation,
ultraviolet
communications,
automatic
driving,
and
acoustic
signal
detection,
have
been
introduced.
Small,
Journal Year:
2023,
Volume and Issue:
20(23)
Published: Dec. 27, 2023
MXene
is
widely
used
in
the
construction
of
optoelectronic
interfaces
due
to
its
excellent
properties.
However,
hydrophilicity
and
metastable
surface
lead
oxidation
behavior,
resulting
degradation
various
properties,
which
seriously
limits
practical
application.
In
this
work,
a
2D
metal-organic
framework
(2D
MOF)
with
matching
morphology,
stability
performance,
outstanding
performance
grown
situ
on
through
heterojunction
engineering
suppress
direct
contact
between
reactive
molecules
inner
layer
material
without
affecting
original
advantages
MXene.
The
photoelectric
dual
gain
MXene@MOF
confirmed.
As
material,
properties
are
highly
suitable
for
demand
interface
sensitization
materials
plasmon
resonance
(SPR).
Therefore,
using
SPR
as
platform
application
potential
mechanism
enhance
analyzed
depth
experiments
combined
simulation
calculations
(FDTD/DFT).
Finally,
MXene@MOF/peptides-SPR
sensor
constructed
rapid
sensitive
detection
cancer
marker
exosomes
explore
applications.
This
work
offers
forward-looking
strategy
design
performance.
Green Chemical Engineering,
Journal Year:
2024,
Volume and Issue:
6(1), P. 6 - 20
Published: March 15, 2024
The
perception
of
light
is
crucial
for
humans
to
explore
the
external
world.
However,
challenges
current
planar
photosensors
include
inherent
limitations
in
depth
field
and
view.
Flexible
electronic
devices
offer
a
solution
this
issue
by
allowing
adaptation
curved
surfaces,
ensuring
stable
interfaces
excellent
signal
quality.
Compared
photoelectric
sensors,
flexible
based
on
photothermal
conversion
can
respond
wider
spectrum
light,
simplify
design
processes,
overcome
issues
such
as
instability
high
toxicity.
review
introduces
progress
conversion,
summarizes
combination
with
pyroelectric,
thermoelectric,
thermoresistive
effects,
signals
into
thermal
then
electric
signals.
Additionally,
outlines
future
research
field.
Advanced NanoBiomed Research,
Journal Year:
2024,
Volume and Issue:
4(8)
Published: July 2, 2024
Bacterial
infections
are
a
great
threat
to
human
health,
and
the
irrational
use
of
antibiotics
has
largely
compromised
efficacy
antibiotic
therapy
due
emergence
drug‐resistant
pathogens.
It
is
known
that
synthesizing
new
difficult
time‐consuming.
In
this
case,
developing
antibiotics‐independent
antibacterial
approaches
importance
significance.
past
decade,
various
functional
nanomaterials
have
shown
potentials
in
treatment
bacterial
infections.
Among
these
nanomaterials,
transition
metal
carbides
or
nitrides,
namely
MXene,
attracted
much
attention.
As
novel
2D
nanosheets,
MXene
can
serve
either
as
direct
agent
its
intrinsic
activity
photothermal
effect,
an
efficient
carrier
load
photosensitizers
photocatalysts
for
photodynamic
photocatalytic
therapy.
recent
few
years,
number
literatures
regarding
MXene‐based
increased
rapidly.
Thus,
it
time
systematically
summarize
applications
bacteria,
especially
those
with
drug
resistance.
Herein,
aimed
preparation
methods
provide
comprehensive
understanding
properties
Also,
detection
challenges
practical
discussed.
