Journal of Materials Science,
Год журнала:
2022,
Номер
57(10), С. 5697 - 5767
Опубликована: Март 1, 2022
Abstract
This
review
paper
provides
a
recent
overview
of
current
international
research
that
is
being
conducted
into
the
functional
properties
cellulose
as
nanomaterial.
A
particular
emphasis
placed
on
fundamental
and
applied
undertaken
to
generate
applications,
which
are
now
becoming
real
prospect
given
developments
in
field
over
last
20
years.
short
introduction
covers
context
work,
definitions
different
forms
nanomaterials
(CNMs)
most
widely
studied.
We
also
address
terminology
used
for
CNMs,
suggesting
standard
way
classify
these
materials.
The
reviews
separated
out
theme
areas,
namely
healthcare,
water
purification,
biocomposites,
energy.
Each
section
contains
within
summarizes
work
by
groups
represented.
Topics
covered
include
nanocrystals
directed
growth
tissues,
bacterial
nanocellulose
drug
delivery,
thermoplastic
composites,
structurally
colored
materials,
transparent
wood
supercapacitors
batteries.
Advanced Materials,
Год журнала:
2021,
Номер
33(48)
Опубликована: Сен. 24, 2021
With
the
increasing
demand
for
wearable
electronics
(such
as
smartwatch
equipment,
health
monitoring
systems,
and
human-robot
interface
units),
flexible
energy
storage
systems
with
eco-friendly,
low-cost,
multifunctional
characteristics,
high
electrochemical
performances
are
imperative
to
be
constructed.
Nanocellulose
sustainable
natural
abundance,
superb
properties,
unique
structures
has
emerged
a
promising
nanomaterial,
which
shows
significant
potential
fabricating
functional
systems.
This
review
is
intended
provide
novel
perspectives
on
combination
of
nanocellulose
other
materials
design
fabricate
nanocellulose-based
composites
advanced
devices.
First,
structural
characteristics
properties
briefly
introduced.
Second,
structure-property-application
relationships
these
addressed
optimize
their
from
perspective
processing
technologies
micro/nano-interface
structure.
Next,
recent
specific
applications
composites,
ranging
lithium-ion
batteries
supercapacitors
emerging
devices,
such
lithium-sulfur
batteries,
sodium-ion
zinc-ion
comprehensively
discussed.
Finally,
current
challenges
future
developments
in
next
generation
proposed.
Advanced Healthcare Materials,
Год журнала:
2020,
Номер
9(19)
Опубликована: Авг. 31, 2020
Traditional
wound
dressings
mainly
participate
in
the
passive
healing
processes
and
are
rarely
engaged
active
by
stimulating
skin
cell
behaviors.
Electrical
stimulation
(ES)
has
been
known
to
regulate
Herein,
a
series
of
multifunctional
hydrogels
based
on
regenerated
bacterial
cellulose
(rBC)
MXene
(Ti3
C2
Tx
)
first
developed
that
can
electrically
modulate
behaviors
for
under
external
ES.
The
composite
hydrogel
with
2
wt%
(rBC/MXene-2%)
exhibits
highest
electrical
conductivity
best
biocompatibility.
Meanwhile,
rBC/MXene-2%
presents
desired
mechanical
properties,
favorable
flexibility,
good
biodegradability,
high
water-uptake
capacity.
An
vivo
study
using
rat
full-thickness
defect
model
reveals
this
rBC/MXene
better
therapeutic
effect
than
commercial
Tegaderm
film.
More
importantly,
vitro
data
demonstrate
coupling
ES,
significantly
enhance
proliferation
activity
NIH3T3
cells
accelerate
process,
as
compared
non-ES
controls.
This
suggests
biodegradable
electroactive
is
an
appealing
candidate
dressing
healing,
while
also
providing
effective
synergistic
strategy
accelerating
repair
process
through
ES
dressing.
Nano-Micro Letters,
Год журнала:
2022,
Номер
14(1)
Опубликована: Апрель 13, 2022
Abstract
Cellulose
nanopaper
has
shown
great
potential
in
diverse
fields
including
optoelectronic
devices,
food
packaging,
biomedical
application,
and
so
forth,
owing
to
their
various
advantages
such
as
good
flexibility,
tunable
light
transmittance,
high
thermal
stability,
low
expansion
coefficient,
superior
mechanical
properties.
Herein,
recent
progress
on
the
fabrication
applications
of
cellulose
is
summarized
discussed
based
analyses
latest
studies.
We
begin
with
a
brief
introduction
three
types
nanocellulose:
nanocrystals,
nanofibrils
bacterial
cellulose,
recapitulating
differences
preparation
Then,
main
methods
filtration
method
casting
well
newly
developed
technology
are
systematically
elaborated
compared.
Furthermore,
advanced
energy
storage,
electronic
water
treatment,
high-performance
packaging
materials
were
highlighted.
Finally,
prospects
ongoing
challenges
summarized.
Frontiers in Bioengineering and Biotechnology,
Год журнала:
2020,
Номер
8
Опубликована: Дек. 22, 2020
Bacterial
cellulose
(BC)
is
a
natural
biomaterial
synthesized
by
bacteria.
It
possesses
unique
structure
of
nanofiber-weaved
three-dimensional
reticulated
network
that
endows
it
excellent
mechanical
properties,
high
water
holding
capability
and
outstanding
suspension
stability.
also
characterized
with
purity,
degree
crystallinity,
great
biocompatibility
biodegradability.
Due
to
these
advantages,
BC
has
gained
attentions
in
both
academic
industrial
areas.
This
critical
review
summarizes
the
up-to-date
development
production
application
from
an
perspective.
Firstly,
fundamental
knowledge
BC's
biosynthesis,
properties
described,
then
recent
developments
fermentation
are
introduced.
Subsequently,
latest
commercial
applications
areas
food,
personal
care,
household
chemicals,
biomedicine,
textile,
composite
resin
summarized.
Finally,
brief
discussion
future
industry
presented
at
end.
Chemical Reviews,
Год журнала:
2023,
Номер
123(5), С. 1925 - 2015
Опубликована: Фев. 1, 2023
Modern
technology
has
enabled
the
isolation
of
nanocellulose
from
plant-based
fibers,
and
current
trend
focuses
on
utilizing
in
a
broad
range
sustainable
materials
applications.
Water
is
generally
seen
as
detrimental
component
when
contact
with
nanocellulose-based
materials,
just
like
it
harmful
for
traditional
cellulosic
such
paper
or
cardboard.
However,
water
an
integral
plants,
many
applications
already
accept
presence
make
use
it.
This
review
gives
comprehensive
account
nanocellulose–water
interactions
their
repercussions
all
key
areas
contemporary
research:
fundamental
physical
chemistry,
chemical
modification
nanocellulose,
applications,
analytical
methods
to
map
effect
matrix.
