Science and Engineering of Composite Materials,
Journal Year:
2024,
Volume and Issue:
31(1)
Published: Jan. 1, 2024
Abstract
Sport
plays
a
crucial
role
in
human
society,
fostering
physical
health,
collaboration,
and
the
spirit
of
rivalry.
The
importance
sports
promoting
sense
well-being,
self-control,
cognitive
sharpness
should
be
considered.
efficacy
athletic
performance
often
relies
on
caliber
clothing
used.
Traditional
sportswear
encounters
many
issues,
including
but
not
limited
to
restricted
breathability,
inefficient
moisture
management,
insufficient
ultraviolet
(UV)
protection.
To
examine
these
concerns,
present
study
investigates
Intelligent
Sportswear
Design
(ISWD),
an
innovative
advancement
rooted
conjugated
nanomaterials.
field
ISWD
covers
development
apparel
footwear
specifically
intended
boost
provide
optimal
comfort.
Coatings
graphene,
silver
nanoparticles,
environmentally
friendly
green
nanomaterials
are
employed
multipurpose
PES
fabrics.
This
research
looks
at
how
we
might
better
protect
athletes
from
sun
by
developing
fabrics
with
UV-blocking
qualities.
Results
show
increased
moisture-wicking
efficiency,
UV-radiation
protection,
enhanced
electrical
conductivity.
found
that
fabric
management
could
improved
25%,
30%,
conductivity
15%,
heat
retention
decreased
20%.
experimental
results
proposed
exhibits
notable
several
necessary
measures,
effectiveness
(23.22%),
(34.22%),
(20.88%),
reduction
(26.94%),
UV
radiation
shielding
(35.68%).
Langmuir,
Journal Year:
2024,
Volume and Issue:
unknown
Published: July 18, 2024
Thousands
of
chemicals
have
been
released
into
the
environment
in
recent
decades.
The
presence
emerging
contaminants
(ECs)
water
has
emerged
as
a
pressing
concern.
Adsorption
is
viable
solution
for
removal
ECs.
Metal-organic
frameworks
(MOFs)
shown
great
potential
efficient
adsorbents,
but
their
dispersed
powder
form
limits
practical
applications.
Recently,
researchers
developed
various
separable
MOF-based
adsorbents
to
improve
recyclability.
purpose
this
review
summarize
latest
developments
construction
and
applications
adsorbing
strategies
MOFs
are
classified
four
categories:
magnetic
MOFs,
MOF-fiber
composites,
MOF
gels,
binder-assisted
shaping.
Typical
include
pesticides,
pharmaceuticals
personal
care
products,
endocrine-disrupting
compounds.
adsorption
performance
different
materials
evaluated
based
on
results
static
dynamic
experiments.
Additionally,
regeneration
methods
discussed
detail
facilitate
effective
recycling
reuse.
Finally,
challenges
future
research
opportunities
proposed,
including
reducing
losses
during
shaping
process,
developing
assessment
systems
purification
real
polluted
water,
optimizing
methods,
designing
multifunctional
low-cost,
large-scale
synthesis
MOFs.
Small Methods,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 10, 2025
Herein,
a
versatile
amorphous-to-crystalline
transformation
(ACT)
strategy
is
described,
to
furnish
various
metals
(Cu,
Co,
Ni,
Cs,
and
Y)
based
atomically
dispersed
catalysts
(ADCs)
on
thin
holey
2D
Al2O3.
This
approach,
which
involves
adjusting
reactant
stoichiometry,
enables
the
continuous
modulation
of
particle
size
ADCs
at
an
atomical
level,
giving
ultrafine
products
as
single
atom,
cluster,
or
nanoparticle
catalysts.
synthesis
method
allows
straightforward
analysis
comparison
reactivity
dispersion
active
metal.
In
case
Cu,
cluster
catalyst
0.2-Cu/Al2O3
outperforms
atom
0.1-Cu/Al2O3
0.3-Cu/Al2O3
in
oxidation
refractory
organic
molecules,
thanks
its
superior
electron
transport
surface
adsorption
properties.
These
findings
are
well
supported
by
Density
functional
theory
(DFT)
calculations.
Additionally,
this
facilitates
preparation
atomic
clusters
with
very
small
0.5-1
nm,
composed
just
few
atoms,
exemplified
Ni-based
ADCs.
The
developed
enriches
library
demonstrates
potential
creating
advanced
ultrasmall
materials.
