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%).
Advanced Energy Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Sept. 17, 2024
Abstract
As
a
type
of
2D
materials,
layered
double
hydroxides
(LDHs)
have
emerged
as
potential
candidates
for
electrochemical
energy
storage
materials.
To
address
their
challenges
limited
active
sites
and
sluggish
charge
transfer
kinetics,
etc.,
this
work
presents
an
ingenious
synchronous
topochemical
pathway
(STP)
method
that
enables
the
in
situ
anchoring
numerous
nanosized
Co
9
S
8
on
rigid
layers
LDHs.
These
n‐type
anti‐barrier
layers,
generated
by
ohmic
contact
between
quasi‐metal
(Co
)
semiconductor
(LDHs),
alter
band
structure
electron
states
near
Fermi
level,
optimizing
intrinsic
conductivity
deprotonation
reaction
barriers
LDH
The
prepared
NiCoAl‐LDHs@Co
(LCS)
electrode
exhibits
remarkable
capacity
(473.2
mAh
g
−
¹
at
1
A
¹)
operational
stability
(91.2%
retention
after
20,000
cycles).
Furthermore,
aqueous
battery
device
constructed
with
LCS
cathode
Fe‐Ni
sulfide
(FNS)
anode
demonstrates
impressive
density
118.5
Wh
kg
power
800
W
¹.
This
generalized
structural
design
strategy
achieves
multiple
enhancements
sites,
efficiency,
providing
insights
into
relationships
performance
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%).
