ACS Applied Materials & Interfaces,
Год журнала:
2023,
Номер
15(13), С. 17188 - 17194
Опубликована: Март 22, 2023
Due
to
global
warming
and
the
energy
crisis,
incorporating
passive
radiative
cooling
into
personal
thermal
management
has
attracted
extensive
attention.
However,
developing
a
wearable
textile
that
reflects
incoming
sunlight
allows
mid-infrared
radiation
transmission
is
still
tough
challenge.
Herein,
shish-kebab
superstructure
film
was
produced
via
flow-induced
crystallization
strategy
for
cooling.
The
resulting
endowed
high
infrared
transmittance
(87%)
improved
reflectivity
(83%).
A
device
developed
simulate
human
body
skin,
temperatures
of
were
2.5
2.6
°C
lower
than
traditional
in
outdoor
indoor
tests,
respectively.
In
order
make
more
wearable,
series
modifications
then
carried
out.
This
study
demonstrates
substantial
potential
textiles.
Separation and Purification Technology,
Год журнала:
2023,
Номер
320, С. 124144 - 124144
Опубликована: Май 24, 2023
As
a
result
of
serious
pollution
in
the
water
environment,
sewage
disposal
has
been
receiving
lot
attention
from
industry.
Metal-organic
frameworks
(MOFs)
attract
interest
adsorption
and
separation
due
to
their
complex
structures
easily
adjustable
pore
sizes.
Magnetic
MOFs
inheriting
advantages
both
large
surface
area
easy
recovery
have
great
potentials
pollutants.
This
paper
reviews
recent
research
progress
on
ions,
dyes
other
contaminants
by
different
types
(magnetic
non-magnetic
MOFs)
magnetic
composites
(Fe3O4@MOF)
aqueous
environments.
The
factors
affecting
pollutants,
thermodynamic
kinetic
effects
are
discussed
with
detailed
examples.
Finally,
challenges
opportunities
for
further
development
elucidated.
Materials Chemistry Frontiers,
Год журнала:
2023,
Номер
7(8), С. 1520 - 1561
Опубликована: Янв. 1, 2023
The
methods
for
the
preparation
and
modification
of
layered
double
hydroxides
(LDHs)
in
recent
years
are
reviewed
this
paper.
In
addition,
their
electrochemical
properties
applications
field
supercapacitors
demonstrated.
Journal of Material Science and Technology,
Год журнала:
2023,
Номер
169, С. 124 - 136
Опубликована: Июль 19, 2023
In
order
to
maintain
the
optimal
operating
temperature
of
battery
surface
and
meet
demand
for
thermal
storage
technology,
management
system
based
on
phase
change
materials
has
attracted
increasing
interest.
this
work,
a
kind
core-shell
structured
microcapsule
was
synthesized
by
an
in-situ
polymerization,
where
paraffin
used
as
core,
while
methanol
applied
modify
melamine-formaldehyde
shell
reduce
toxicity
improve
stability.
Moreover,
three
different
types
heat
conductive
fillers
with
same
content
10
wt.%,
i.e.,
nano-Al2O3,
nano-ZnO
carbon
nanotubes
were
added,
generating
composites.
The
microcapsules
uniform,
not
affected
fillers,
which
evenly
dispersed
around.
composite
sample
(10
wt.%)
showed
highest
conductivity
0.50
W/(m
K)
latent
139.64
J/g.
Furthermore,
according
leakage
testing
charge/discharge
experiments,
compared
Al2O3
ZnO,
addition
remarkably
enhances
ability
from
126.98
J/g
prepared
125.86
one
then
J/g,
well
dissipation
performance
cooling
effect
decreasing
2%
12%
microcapsule,
presents
broad
application
prospect
in
energy
field.
