Chemical Reviews,
Journal Year:
2023,
Volume and Issue:
123(12), P. 7854 - 7889
Published: May 30, 2023
With
the
rising
diabetic
population,
demand
for
glucose
sensing
devices
has
also
been
on
an
increasing
trend.
Accordingly,
field
of
biosensors
diabetes
management
witnessed
tremendous
scientific
and
technological
advancements
since
introduction
first
enzymatic
biosensor
in
1960s.
Among
these,
electrochemical
hold
considerable
potential
tracking
dynamic
profiles
real
time.
The
recent
evolution
wearable
opened
opportunities
to
use
alternative
body
fluids
a
pain-free,
noninvasive
or
minimally
invasive
manner.
This
review
aims
present
comprehensive
report
about
status
promise
sensors
on-body
monitoring.
We
start
by
highlighting
importance
how
can
contribute
toward
its
effective
then
discuss
mechanisms,
such
over
time,
different
versions
targeting
various
biofluids,
multiplexed
optimal
management.
Finally,
we
focus
commercial
aspects
biosensors,
starting
with
existing
continuous
monitors,
followed
other
emerging
technologies,
concluding
key
prospects
personalized
connection
autonomous
closed-loop
artificial
pancreas.
Advanced Materials,
Journal Year:
2023,
Volume and Issue:
unknown
Published: Aug. 28, 2023
The
rise
of
flexible
and
stretchable
electronics
has
revolutionized
biosensor
techniques
for
probing
biological
systems.
Particularly,
electrochemical
sensors
(FSECSs)
enable
the
in
situ
quantification
numerous
biochemical
molecules
different
entities
owing
to
their
exceptional
sensitivity,
fast
response,
easy
miniaturization.
Over
past
decade,
fabrication
application
FSECSs
have
significantly
progressed.
This
review
highlights
key
developments
electrode
functionalization.
It
delves
into
sensing
various
biomarkers,
including
metabolites,
electrolytes,
signaling
molecules,
neurotransmitters
from
systems,
encompassing
outer
epidermis,
tissues/organs
vitro
vivo,
living
cells.
Finally,
considering
preparation
applications,
current
challenges
future
opportunities
are
discussed.
ACS Nano,
Journal Year:
2024,
Volume and Issue:
18(5), P. 3969 - 3995
Published: Jan. 25, 2024
Implantable
chemical
sensors
built
with
flexible
and
biodegradable
materials
exhibit
immense
potential
for
seamless
integration
biological
systems
by
matching
the
mechanical
properties
of
soft
tissues
eliminating
device
retraction
procedures.
Compared
conventional
hospital-based
blood
tests,
implantable
have
capability
to
achieve
real-time
monitoring
high
accuracy
important
biomarkers
such
as
metabolites,
neurotransmitters,
proteins,
offering
valuable
insights
clinical
applications.
These
innovative
could
provide
essential
information
preventive
diagnosis
effective
intervention.
To
date,
despite
extensive
research
on
bioresorbable
electronics,
development
has
faced
several
challenges
related
design,
resulting
in
only
a
limited
number
successful
accomplishments.
This
review
highlights
recent
advancements
based
materials,
encompassing
their
sensing
strategies,
geometric
configurations.
The
following
discussions
focus
demonstrated
detection
various
objects
including
ions,
small
molecules,
few
examples
macromolecules
using
and/or
sensors.
Finally,
we
will
present
current
explore
future
directions.
Results in Engineering,
Journal Year:
2024,
Volume and Issue:
21, P. 101867 - 101867
Published: Feb. 9, 2024
The
popularity
of
3D
printed
flexible
sensors
has
increased
as
a
result
recent
breakthroughs
in
the
Internet
Things
(IOTs)
and
advances
field
wearable
electronics.
Regardless
they
serve,
are
becoming
an
indispensable
part
our
everyday
lives.
Physical
biosensors
for
monitoring
variety
stimuli,
including
temperature,
strain,
glucose,
other
biomarkers,
may
be
most
widely
used
applications.
Furthermore,
boon
observed
miniaturization
electronic
devices
accommodation
large
number
components
necessitates
need
multi-sensor
arrays
with
different
being
fabricated
into
same
device.
complex
pliable
led
to
utilization
printing
technology
their
production.
is
versatile
process
that
utilized
easily
fabricate
intricate,
multipurpose
architecture.
This
review
primarily
focus
on
advancements
developing
biomedical
applications
special
physical,
electrochemical
biosensors.
types
techniques
fabrication
along
existing
challenges
future
perspectives
also
discussed
this
review.
Nano-Micro Letters,
Journal Year:
2023,
Volume and Issue:
16(1)
Published: Dec. 12, 2023
In
vivo
monitoring
of
animal
physiological
information
plays
a
crucial
role
in
promptly
alerting
humans
to
potential
diseases
animals
and
aiding
the
exploration
mechanisms
underlying
human
diseases.
Currently,
implantable
electrochemical
microsensors
have
emerged
as
prominent
area
research.
These
not
only
fulfill
technical
requirements
for
but
also
offer
an
ideal
platform
integration.
They
been
extensively
studied
their
ability
monitor
minimally
invasive
manner,
characterized
by
bloodless,
painless
features,
exceptional
performance.
The
development
has
witnessed
significant
scientific
technological
advancements
through
dedicated
efforts.
This
review
commenced
with
comprehensive
discussion
construction
microsensors,
including
materials
utilized
methods
employed
fabrication.
Following
this,
we
proceeded
explore
various
implantation
technologies
microsensors.
addition,
overview
was
provided
applications
specifically
investigation
disease
mechanisms.
Lastly,
concise
conclusion
conducted
on
recent
obstacles
pertaining
practical
implementation
