Sensors,
Год журнала:
2023,
Номер
23(20), С. 8648 - 8648
Опубликована: Окт. 23, 2023
With
a
rising
emphasis
on
public
safety
and
quality
of
life,
there
is
an
urgent
need
to
ensure
optimal
air
quality,
both
indoors
outdoors.
Detecting
toxic
gaseous
compounds
plays
pivotal
role
in
shaping
our
sustainable
future.
This
review
aims
elucidate
the
advancements
smart
wearable
(nano)sensors
for
monitoring
harmful
pollutants,
such
as
ammonia
(NH3),
nitric
oxide
(NO),
nitrous
(N2O),
nitrogen
dioxide
(NO2),
carbon
monoxide
(CO),
(CO2),
hydrogen
sulfide
(H2S),
sulfur
(SO2),
ozone
(O3),
hydrocarbons
(CxHy),
fluoride
(HF).
Differentiating
this
from
its
predecessors,
we
shed
light
challenges
faced
enhancing
sensor
performance
offer
deep
dive
into
evolution
sensing
materials,
substrates,
electrodes,
types
sensors.
Noteworthy
materials
robust
detection
systems
encompass
2D
nanostructures,
nanomaterials,
conducting
polymers,
nanohybrids,
metal
semiconductors.
A
dedicated
section
dissects
significance
circuit
integration,
miniaturization,
real-time
sensing,
repeatability,
reusability,
power
efficiency,
gas-sensitive
material
deposition,
selectivity,
sensitivity,
stability,
response/recovery
time,
pinpointing
gaps
current
knowledge
offering
avenues
further
research.
To
conclude,
provide
insights
suggestions
prospective
trajectory
nanosensors
addressing
extant
challenges.
Advanced Materials Technologies,
Год журнала:
2023,
Номер
8(11)
Опубликована: Май 5, 2023
Abstract
Electrospinning
has
rapidly
progressed
over
the
past
few
decades
as
an
easy
and
versatile
way
to
fabricate
fibers
with
diameters
ranging
from
micrometers
tens
of
nanometers
that
present
unique
intricate
morphologies.
This
led
conception
new
technologies
diverse
methods
exploit
basic
electrohydrodynamic
phenomena
electrospinning
process,
which
in
turn
invention
novel
apparatuses
have
reshaped
field.
Research
on
revamping
conventional
principally
focused
achieving
three
key
objectives:
upscaling
process
while
retaining
consistent
morphological
traits,
developing
3D
nanofibrous
macrostructures,
formulating
fiber
configurations.
review
introduces
extensive
group
techniques
presents
a
comperative
study
based
apparatus
type
output.
Then,
each
process's
advantages
limitations
are
critically
assessed
identify
bona
fide
practicability
relevance
technological
breakthrough.
Finally,
outlook
future
developments
advanced
is
outlined,
emphasis
upscaling,
translational
research,
sustainable
manufacturing
prospective
solutions
current
shortcomings.
Nanomaterials,
Год журнала:
2022,
Номер
12(7), С. 1077 - 1077
Опубликована: Март 25, 2022
Nanomaterials
for
air
filtration
have
been
studied
by
researchers
decades.
Owing
to
the
advantages
of
high
porosity,
small
pore
size,
and
good
connectivity,
nanofiber
membranes
prepared
electrospinning
technology
considered
as
an
outstanding
air-filter
candidate.
To
satisfy
requirements
material
functionalization,
can
provide
a
simple
efficient
one-step
process
fabricate
complex
structures
functional
nanofibers
such
core–sheath
structures,
Janus
other
multilayered
structures.
Additionally,
nanoparticle
carrier,
electrospun
easily
achieve
antibacterial
properties,
flame-retardant
adsorption
properties
volatile
gases,
etc.
These
effective
approaches
benefited
from
significate
development
air-filtration
applications.
In
this
review,
research
progress
on
filters
in
recent
years
is
summarized.
The
fabrication
methods,
performances,
advantages,
disadvantages
single-polymer
nanofibers,
multipolymer
composite
nanoparticle-doped
hybrid
are
investigated.
Finally,
basic
principles
concluded
upon
prospects
application
complex-structured
field
proposed.
Journal of Functional Biomaterials,
Год журнала:
2022,
Номер
13(4), С. 289 - 289
Опубликована: Дек. 9, 2022
Electrospinning
is
an
advanced
technology
for
the
preparation
of
drug-carrying
nanofibers
that
has
demonstrated
great
advantages
in
biomedical
field.
Electrospun
nanofiber
membranes
are
widely
used
field
drug
administration
due
to
their
such
as
large
specific
surface
area
and
similarity
extracellular
matrix.
Different
electrospinning
technologies
can
be
prepare
different
structures,
those
with
a
monolithic
structure,
core–shell
Janus
or
porous
structure.
It
also
possible
controlled-release
functions,
sustained
release,
delayed
biphasic
targeted
release.
This
paper
elaborates
on
drug-loaded
using
various
concludes
mechanisms
behind
controlled
release
drugs.
Polymers,
Год журнала:
2022,
Номер
14(2), С. 351 - 351
Опубликована: Янв. 17, 2022
The
search
for
higher-quality
nanomaterials
medicinal
applications
continues.
There
are
similarities
between
electrospun
fibers
and
natural
tissues.
This
property
has
enabled
to
make
significant
progress
in
medical
applications.
However,
limited
tissue
scaffolding
When
nanoparticles
nanofibers
combined,
the
composite
material
can
perform
more
functions,
such
as
photothermal,
magnetic
response,
biosensing,
antibacterial,
drug
delivery
biosensing.
To
prepare
nanofiber
nanoparticle
hybrids
(NNHs),
there
two
primary
ways.
electrospinning
technology
was
used
produce
NNHs
a
single
step.
An
alternate
way
is
use
self-assembly
technique
create
fibers.
paper
describes
creation
of
from
routinely
biocompatible
polymer
composites.
Single-step
procedures
methodologies
discuss
preparation
NNHs.
It
combines
recent
research
discoveries
focus
on
application
release,
engineering
last
years.
Polymers,
Год журнала:
2022,
Номер
14(9), С. 1637 - 1637
Опубликована: Апрель 19, 2022
With
the
increasing
demand
for
wound
healing
around
world,
level
of
medical
equipment
is
also
increasing,
but
sutures
are
still
preferred
personnel
to
solve
closures.
Compared
with
traditional
sutures,
nanofiber
produced
by
combining
preparation
technology
drug-eluting
have
greatly
improved
both
mechanical
properties
and
biological
properties.
Electrospinning
has
attracted
more
attention
as
one
most
convenient
simple
methods
preparing
functional
nanofibers
related
sutures.
This
review
firstly
discusses
structural
classification
performance
analysis
affecting
manufacture
use
followed
discussion
electrospinning
technology,
then
summarizes
relevant
research
on
absorbable
non-absorbable
Finally,
several
common
polymers
biologically
active
substances
used
in
creating
concluded,
applications
discussed,
future
prospects
suggested.
Frontiers in Chemistry,
Год журнала:
2022,
Номер
10
Опубликована: Авг. 11, 2022
Diabetes
is
a
chronic,
systemic
metabolic
disease
that
leads
to
multiple
complications,
even
death.
Meanwhile,
the
number
of
people
with
diabetes
worldwide
increasing
year
by
year.
Sensors
play
an
important
role
in
development
biomedical
devices.
The
efficient,
stable,
and
inexpensive
glucose
sensors
for
continuous
monitoring
blood
levels
has
received
widespread
attention
because
they
can
provide
reliable
data
prevention
diagnosis.
Electrospun
nanofibers
are
new
kinds
functional
nanocomposites
show
incredible
capabilities
high-level
biosensing.
This
article
reviews
based
on
electrospun
nanofibers.
principles
sensor,
types
measurement,
detection
methods
briefly
discussed.
principle
electrospinning
its
applications
advantages
then
introduced.
provides
comprehensive
summary
polymers
nanomaterials
nanofiber-based
sensors.
relevant
comparisons
enzymatic
non-enzymatic
discussed
detail.
main
disadvantages
evaluated,
some
solutions
proposed.
Finally,
potential
commercial
improved
Chemical Reviews,
Год журнала:
2024,
Номер
124(4), С. 1535 - 1648
Опубликована: Фев. 19, 2024
Over
the
years,
researchers
have
made
significant
strides
in
development
of
novel
flexible/stretchable
and
conductive
materials,
enabling
creation
cutting-edge
electronic
devices
for
wearable
applications.
Among
these,
porous
textiles
(PCTs)
emerged
as
an
ideal
material
platform
electronics,
owing
to
their
light
weight,
flexibility,
permeability,
wearing
comfort.
This
Review
aims
present
a
comprehensive
overview
progress
state
art
utilizing
PCTs
design
fabrication
wide
variety
integrated
systems.
To
begin
with,
we
elucidate
how
revolutionize
form
factors
electronics.
We
then
discuss
preparation
strategies
PCTs,
terms
raw
processes,
key
properties.
Afterward,
provide
detailed
illustrations
are
used
basic
building
blocks
fabricate
intrinsically
flexible
or
stretchable
devices,
including
sensors,
actuators,
therapeutic
energy-harvesting
storage
displays.
further
describe
techniques
systems
either
by
hybridizing
conventional
off-the-shelf
rigid
components
with
integrating
multiple
fibrous
PCTs.
Subsequently,
highlight
some
important
application
scenarios
healthcare,
sports
training,
converging
technologies,
professional
specialists.
At
end
Review,
challenges
perspectives
on
future
research
directions
give
overall
conclusions.
As
demand
more
personalized
interconnected
continues
grow,
PCT-based
wearables
hold
immense
potential
redefine
landscape
technology
reshape
way
live,
work,
play.
