ACS Applied Materials & Interfaces,
Год журнала:
2023,
Номер
16(1), С. 1351 - 1360
Опубликована: Дек. 27, 2023
Continuous
glucose
monitoring
(CGM),
which
is
significant
for
the
daily
management
of
diabetes,
requires
a
low-power-consumption
sensor
system
that
can
track
low
nanomolar
levels
in
physiological
fluids,
such
as
sweat
and
tears.
However,
traditional
electrochemical
methods
are
limited
to
analytes
micromolar
millimolar
ranges
entail
high
power
consumption.
Carbon
nanotube
(CNT)
film
field-effect
transistors
(FETs)
promising
constructing
extremely
sensitive
biosensors,
but
their
wide
applications
CGM
by
strong
screening
effect
fluids
zero
charge
molecules.
In
this
study,
we
demonstrate
aptamer-modified
CNT
FET
biosensor
realize
highly
with
sub-nW
consumption
applying
suitable
gate
voltage.
A
positive
voltage
enlarge
effective
Debye
length
at
double
layer
reduce
local
ion
population
nearby
then
improve
sensitivity
FET-based
biosensors
5
times.
We
construct
sensors
limit
detection
0.5
fM,
record
dynamic
range
up
10
Nano-biosensors
that
are
composed
of
recognition
molecules
and
nanomaterials
have
been
extensively
utilized
in
disease
diagnosis,
health
management,
environmental
monitoring.
As
a
type
nano-biosensors,
molecular
specificity
field-effect
transistor
(FET)
biosensors
with
signal
amplification
capability
exhibit
prominent
advantages
including
fast
response
speed,
ease
miniaturization,
integration,
promising
their
high
sensitivity
for
detection
identification.
With
intrinsic
characteristics
stability
structural
tunability,
aptamer
has
become
one
the
most
commonly
applied
biological
units
FET
sensing
fields.
This
review
summarizes
recent
progress
based
on
functionalized
medical
diagnosis
The
structure,
principles,
preparation
methods,
functionalization
strategies
modified
were
comprehensively
summarized.
relationship
between
structure
performance
was
reviewed.
Furthermore,
challenges
future
perspectives
also
discussed,
so
as
to
provide
support
development
efficient
healthcare
management
monitoring
devices.
The
rapid
and
sensitive
detection
of
trace-level
viruses
in
a
simple
reliable
way
is
great
importance
for
epidemic
prevention
control.
Here,
multi-functionalized
floating
gate
carbon
nanotube
field
effect
transistor
(FG-CNT
FET)
based
biosensor
reported
the
single
virus
level
SARS-CoV-2
antigen
RNA
rapidly
with
portable
sensing
platform.
aptamers
functionalized
sensors
can
detect
antigens
from
unprocessed
nasopharyngeal
swab
samples
within
1
min.
Meanwhile,
enhanced
by
multi-probe
strategy,
FG-CNT
FET-based
long
chain
directly
without
amplification
down
to
device,
constructed
packaged
sensor
chips
terminal,
distinguish
10
COVID-19
patients
healthy
individuals
clinical
tests
both
RNAs
combination
strategy
an
combined
overall
percent
agreement
(OPA)
close
100%.
results
provide
general
method
enhance
sensitivity
biochemical
nucleic
acid
molecules
demonstrate
that
CNT
FG
FET
versatile
integrated
platform
ultrasensitive
multibiomarker
has
potential
point-of-care
(POC)
tests.
Advanced Materials,
Год журнала:
2023,
Номер
unknown
Опубликована: Дек. 4, 2023
Promising
advances
in
molecular
medicine
have
promoted
the
urgent
requirement
for
reliable
and
sensitive
diagnostic
tools.
Electronic
biosensing
devices
based
on
field-effect
transistors
(FETs)
exhibit
a
wide
range
of
benefits,
including
rapid
label-free
detection,
high
sensitivity,
easy
operation,
capability
integration,
possessing
significant
potential
application
disease
screening
health
monitoring.
In
this
perspective,
tremendous
efforts
achievements
development
high-performance
FET
biosensors
past
decade
are
summarized,
with
emphasis
interface
engineering
FET-based
electrical
platforms
biomolecule
identification.
First,
an
overview
strategies
modulation
recognition
element
design
is
discussed
detail.
For
further
step,
applications
vitro
detection
real-time
monitoring
biological
systems
comprehensively
reviewed.
Finally,
key
opportunities
challenges
electronic
discussed.
It
anticipated
that
comprehensive
understanding
will
inspire
additional
techniques
developing
highly
sensitive,
specific,
stable
as
well
emerging
designs
next-generation
electronics.
Biosensors,
Год журнала:
2025,
Номер
15(2), С. 100 - 100
Опубликована: Фев. 10, 2025
Understanding
brain
function
requires
advanced
neural
probes
to
monitor
electrical
and
chemical
signaling
across
multiple
timescales
regions.
Microelectrode
arrays
(MEAs)
are
widely
used
record
neurophysiological
activity
various
depths
regions,
providing
single-unit
resolution
for
extended
periods.
Recent
advancements
in
flexible
MEAs,
built
on
micrometer-thick
polymer
substrates,
have
improved
integration
with
tissue
by
mimicking
the
brain's
soft
nature,
reducing
mechanical
trauma
inflammation.
These
flexible,
subcellular-scale
MEAs
can
stable
signals
months,
making
them
ideal
long-term
studies.
In
addition
recording,
been
functionalized
electrochemical
neurotransmitter
detection.
Electroactive
neurotransmitters,
such
as
dopamine,
serotonin,
adenosine,
be
directly
measured
via
methods,
particularly
carbon-based
surfaces.
For
non-electroactive
neurotransmitters
like
acetylcholine,
glutamate,
γ-aminobutyric
acid,
alternative
strategies,
enzyme
immobilization
aptamer-based
recognition,
employed
generate
signals.
This
review
highlights
recent
developments
MEA
fabrication
functionalization
achieve
both
electrophysiological
recordings,
minimizing
sensor
fowling
damage
when
implanted
long-term.
It
covers
multi-time
scale
detection,
development
of
conducting
nanomaterial
composite
coatings
enhance
sensitivity,
incorporation
recognition
carbon
electrodes
MEAs.
Finally,
it
summarizes
strategies
acquire
measurements
from
same
device.
Nanomaterials,
Год журнала:
2025,
Номер
15(6), С. 447 - 447
Опубликована: Март 15, 2025
Accurate
monitoring
of
sodium
and
potassium
ions
in
biological
fluids
is
crucial
for
diseases
related
to
electrolyte
imbalance.
Low-dimensional
materials
such
as
carbon
nanotubes
can
be
used
construct
biochemical
sensors
based
on
high-performance
field
effect
transistor
(FET),
but
they
face
the
problems
poor
device
consistency
difficulty
stable
reliable
operation.
In
this
work,
we
mass-produced
nanotube
(CNT)
floating-gate
field-effect
devices
with
high
uniformity
through
micro-/nanofabrication
technology
improve
accuracy
reliability
detection
without
need
statistical
analysis
machine
learning.
By
introducing
waterproof
hafnium
oxide
gate
dielectrics
CNT
FET
channel,
not
only
effectively
protect
channel
area
also
significantly
stability
sensor.
We
have
prepared
array
sensing
that
detect
potassium,
sodium,
calcium,
hydrogen
artificial
cerebrospinal
fluid.
The
concentration
range
10
μM–100
mM
pH
3–pH
9,
a
sensitivity
close
Nernst
limit,
exhibits
selective
long-term
responses.
This
could
help
achieve
early
diagnosis
real-time
central
nervous
system
diseases,
highlighting
potential
ion-sensing
platform
highly
sensitive
various
neurobiological
markers.
Analytical Chemistry,
Год журнала:
2023,
Номер
95(13), С. 5719 - 5728
Опубликована: Март 21, 2023
Blood-based
tests
have
sparked
tremendous
attention
in
non-invasive
early
diagnosis
of
Alzheimer's
disease
(AD),
a
most
prevalent
neurodegenerative
malady
worldwide.
Despite
significant
progress
the
methodologies
for
detecting
AD
core
biomarkers
such
as
Aβ42
from
serum/plasma,
there
remains
cautious
optimism
going
forward
due
to
its
controversial
diagnostic
value
and
relevance.
Here,
graphene
electrolyte-gated
transistor
biosensor
is
reported
detection
serum
neuron-derived
exosomal
(NDE-Aβ42),
which
an
emerging,
compelling
trove
blood
biomarker
AD.
Assisted
by
antifouling
strategy
with
dual-blocking
process,
noise
against
complex
biological
background
was
considerably
reduced,
forging
impressive
sensitivity
gain
limit
447
ag/mL.
An
accurate
SH-SY5Y-derived
also
achieved
highly
conformable
enzyme-linked
immunosorbent
assay
results.
Importantly,
clinical
analysis
27
subjects
revealed
immense
NDE-Aβ42,
can
outclass
that
Aβ42.
The
developed
electronic
demonstrates,
first
time,
nanosensor-driven
NDE-Aβ42
detection,
enables
reliable
discrimination
patients
non-AD
individuals
even
differential
between
vascular
dementia
patients,
accuracy
100%
Youden
index
1.
This
defines
robust
approach
blood-based
confident
ascertain.
