Scientometric
analysis
using
the
Scopus
database
and
VosViewer
program
identified
critical
directions
of
development
this
or
that
field
to
identify
promising
technologies
understand
how
these
achievements
affect
practice
design
construction.
According
analytics,
average
number
articles
per
year
on
topic
structural
fire
resistance
flame
retardants
increased
by
18%
compared
previous
period,
according
preliminary
data,
trend
will
continue
in
2024.
Among
most
cited
papers,
studies
composite
materials
polymers
dominate.
productive
researchers
retardancy
are
Hu,
Yuan
(54
papers),
Wang,
WeiYong
(47
Jiang,
Jian
(39
papers).
Scopus,
research
papers
have
been
published
2175
sources.
The
leading
journal
terms
is
Fire
Safety
with
250
publications,
but
journals
such
as
Buildings
MDPI
Publishing
strongly
increasing
pace.
Chinese
actively
studying
various
aspects
40%
all
papers.
Keyword
revealed
a
lack
calculation
structures
protection
means,
structures,
3D-printed
reliability
(strength
calculation)
building
structures.
ACS Applied Materials & Interfaces,
Год журнала:
2025,
Номер
unknown
Опубликована: Май 15, 2025
The
escalating
global
threat
of
ultraviolet
(UV)
radiation
is
manifested
through
multifaceted
damage
pathways
including
cutaneous
carcinogenesis,
photodegradation
organic
substrates,
marine
ecosystem
destabilization,
and
infrastructure
weathering.
These
urgent
challenges
have
catalyzed
sustained
interdisciplinary
efforts
toward
advanced
UV-shielding
technologies
spanning
biomedical,
environmental,
industrial
domains.
Current
material
arsenals
include
melanin,
lignin,
tannin,
polydopamine,
zinc
oxide
titanium
dioxide,
etc.
materials
can
be
applied
to
diverse
fields
such
as
food
packaging,
sunscreen
fabrics,
creams,
eyeglasses,
films
tailored
processing
techniques
employing
distinct
photoprotective
mechanisms.
Notwithstanding
significant
progress,
the
development
an
integrated
selection
framework
that
reconciles
efficiency,
durability,
environmental
compatibility
persists
a
critical
knowledge
gap.
In
this
context,
main
mechanisms
various
types
UV
shielding
their
applications
in
different
are
described
systematically.
Subsequently,
comparative
analysis
advantages
shortcomings
presented,
focusing
on
efficiency
stability
impact.
Moreover,
review
delves
into
unique
value
specific
scenarios.
Finally,
building
these
analyses,
current
future
prospects
further
discussed,
with
emphasis
scalability,
eco-friendly
alternatives,
multifunctional
integration,
providing
valuable
insights
guidance
for
advancing
research
promoting
sustainable
functional
innovations
field.
