ACS Applied Materials & Interfaces,
Journal Year:
2021,
Volume and Issue:
13(32), P. 38761 - 38772
Published: Aug. 9, 2021
Wearable
electromagnetic
interference
(EMI)
shielding
fabrics
are
highly
desirable
with
the
rapid
development
of
electronic
devices
and
wireless
communications
where
pollution
is
a
great
concern
for
human
health
reliability
precision
equipment.
The
balance
between
EMI
efficiency
(SE)
flexibility
fabric
still
challenging
because
generally
opposite
requirements
coating
thickness.
In
this
work,
MXene/insulative
polymer
an
alternating
structure
fabricated
via
stepwise
assembly
technique
to
judiciously
combine
excellent
elements,
reasonable
structure,
high
nanofiller
content
together
in
coating.
Owing
novel
strategy,
nanoscale
thickness
(∼500
nm)
has
realized
commercial
requirement
SE
well
retained
air
permeability
fabric.
Compared
corresponding
pure
MXene
coating,
such
multilayered
demonstrates
138.95%
enhancement
due
improved
dielectrical
properties
intensive
multiple
reflections
waves.
Additionally,
hybrid
also
acts
as
fire-resistant
barrier
inner
flammable
protect
beings
case
accidental
fire.
This
work
provides
new
insights
into
rational
design
shields
nanometer
realize
performance
good
fire
resistance
new-generation
portable
wearable
products.
Polymers,
Journal Year:
2020,
Volume and Issue:
12(3), P. 620 - 620
Published: March 9, 2020
In
this
review,
materials
based
on
polymers
and
hybrids
possessing
both
organic
inorganic
contents
for
repairing
or
facilitating
cell
growth
in
tissue
engineering
are
discussed.
Pure
polymer
biomaterials
predominantly
used
to
target
soft
tissues.
Stipulated
by
possibilities
of
tuning
the
composition
concentration
their
content,
hybrid
allow
mimic
properties
various
types
harder
That
leads
concept
"one-matches-all"
referring
same
polymeric
base,
but
different
content
enable
repair,
proliferation
cells,
formation
ECM
(extra
cellular
matrix).
Furthermore,
adding
drug
delivery
carriers
coatings
scaffolds
designed
with
such
brings
additional
functionality
encapsulating
active
molecules,
antibacterial
agents,
factors.
We
discuss
here
methods
assembly
from
a
general
perspective
together
applications
sub-areas:
interstitial,
connective,
vascular,
nervous,
visceral
musculoskeletal
The
overall
aims
review
two-fold:
(a)
describe
needs
opportunities
field
bio-medicine,
which
should
be
useful
material
scientists,
(b)
present
capabilities
resources
available
area
materials,
interest
biologists
medical
doctors.
Advanced Functional Materials,
Journal Year:
2020,
Volume and Issue:
30(44)
Published: March 12, 2020
Abstract
Growth
factors
(GFs)
are
proteins
secreted
by
cells
that
regulate
a
variety
of
biological
processes.
Although
they
have
long
been
proposed
as
potent
therapeutic
agents,
their
administration
in
soluble
form
has
proven
costly
and
ineffective
due
to
short
half‐lives
environments.
Biomaterial‐based
approaches
increasingly
sought
alternatives
improve
the
efficacy
or,
ideally,
replace
need
for
exogenous
GFs
regenerative
medicine
strategies.
The
means
which
these
systems
evolve
from
biomaterials
conventional
controlled
release
recent
extracellular
matrix
(ECM)–inspired
sequestering
labile
molecules
regulating
spatiotemporal
activity
presentation
reviewed.
Focus
is
placed
on
functionalized
either
with
ECM
components,
show
promiscuous
GF
binding,
or
targeted
ligands
(antibodies,
aptamers,
peptides).
potential
synthetic
platforms
abiotic
affinity
cost‐effective
current
also
discussed.
Overall,
various
developed
so
far
remarkably
improved
at
reduced
doses
and,
some
cases,
completely
avoided
guide
cell
fates.
These
bioinspired
concepts
thus
enable
rational
exploration
full
medicine.
Journal of Materials Chemistry A,
Journal Year:
2020,
Volume and Issue:
8(40), P. 20870 - 20896
Published: Jan. 1, 2020
Polyelectrolytes
self-assembly
is
developing
rapidly
as
a
fascinating
family
of
functional
membrane
fabrication
strategies
with
the
ability
to
modulate
architectures
and
physical–chemical
characteristics
membranes
at
molecular
level.
ACS Applied Materials & Interfaces,
Journal Year:
2021,
Volume and Issue:
13(32), P. 38761 - 38772
Published: Aug. 9, 2021
Wearable
electromagnetic
interference
(EMI)
shielding
fabrics
are
highly
desirable
with
the
rapid
development
of
electronic
devices
and
wireless
communications
where
pollution
is
a
great
concern
for
human
health
reliability
precision
equipment.
The
balance
between
EMI
efficiency
(SE)
flexibility
fabric
still
challenging
because
generally
opposite
requirements
coating
thickness.
In
this
work,
MXene/insulative
polymer
an
alternating
structure
fabricated
via
stepwise
assembly
technique
to
judiciously
combine
excellent
elements,
reasonable
structure,
high
nanofiller
content
together
in
coating.
Owing
novel
strategy,
nanoscale
thickness
(∼500
nm)
has
realized
commercial
requirement
SE
well
retained
air
permeability
fabric.
Compared
corresponding
pure
MXene
coating,
such
multilayered
demonstrates
138.95%
enhancement
due
improved
dielectrical
properties
intensive
multiple
reflections
waves.
Additionally,
hybrid
also
acts
as
fire-resistant
barrier
inner
flammable
protect
beings
case
accidental
fire.
This
work
provides
new
insights
into
rational
design
shields
nanometer
realize
performance
good
fire
resistance
new-generation
portable
wearable
products.
