International Journal of Energetic Materials and Chemical Propulsion,
Journal Year:
2024,
Volume and Issue:
23(4), P. 75 - 85
Published: Jan. 1, 2024
The
development
of
polymers
suitable
to
be
used
as
reactive
structure
materials
has
been
seen
a
long
path
with
major
obstacles.
This
was
due
the
lack
monomers
and
combining
both
structural
rigidity
along
appropriate
energetic
performances.
Hopefully,
new
era
is
starting
emerge
thanks
dedicated
work
several
talented
researchers
around
world.
polybenzoxazines
discussed
in
this
article
provide
good
substitute
polyoxetanes
field
can
effectively
safely
combine
high
thermomechanical
properties
sufficient
detonation
properties.
Therefore,
not
only
unravels
enormous
potential
field,
but
also
reviews
all
previous
efforts
aiming
at
developing
glass
transition
temperatures.
seeks
consolidate
existing
research
findings
area,
goal
emphasizing
these
their
significance
future
materials.
Journal of Materials Chemistry A,
Journal Year:
2024,
Volume and Issue:
12(16), P. 9427 - 9437
Published: Jan. 1, 2024
Aiming
to
balance
the
pertinence
and
universality
of
energetic
materials,
this
study
proposes
a
new
concept
bionic
inspired
multifunctional
modular
materials
seeks
out
potential
monomers
via
high-throughput
screening
strategy.
Oxygen,
Journal Year:
2024,
Volume and Issue:
4(2), P. 181 - 235
Published: May 22, 2024
This
review
explores
the
unique
structural
and
functional
characteristics
of
natural
products
featuring
highly
oxygenated
cyclobutane
rings,
with
a
specific
focus
on
oxetane
1,2-dioxetane
motifs.
It
presents
structures
biological
activities
compounds
containing
these
highlighting
their
contribution
to
molecular
stability
pharmacological
potency.
Through
detailed
case
studies
recent
research
findings,
it
has
been
demonstrated
that
oxygen-rich
rings
enhance
diversity
efficacy
products,
potentially
offering
new
avenues
for
drug
development.
Notably,
are
predominantly
synthesized
by
microorganisms
can
also
be
found
in
extracts
from
fungi,
plants,
certain
marine
invertebrates.
Compounds
primarily
noted
strong
antineoplastic
properties,
among
other
activities.
In
contrast,
most
1,2-dioxetanes
exhibit
potent
antiprotozoal
effects.
is
important
note
often
serve
as
intermediate
oxidation
reactions,
characterized
instability
propensity
decompose
into
compounds.
Materials,
Journal Year:
2024,
Volume and Issue:
18(1), P. 19 - 19
Published: Dec. 24, 2024
The
azido
propellant,
with
high
energy
and
low
signature,
has
been
a
hotpot
in
the
field
of
propellants.
However,
risk
heat
resistance
mechanical
performance
restricts
their
range
applications
high-energy
formulations.
In
this
study,
four
propellants
based
on
3,3-bis
(azidomethyl)
oxetane-tetrahydrofuran
copolyether
(BAMO-THF)
have
prepared,
basic
physical
properties
including
energetic
properties,
internal
micro-structure
true
density
were
studied;
tensile
dynamic
performances,
investigated,
structure-properties
relationship
was
proposed.
results
demonstrate
that
obtained
propellant
shows
an
elastomeric
composite
material
behavior,
obvious
relaxation
initial
stage
susceptibility
to
loading
condition.
formula
structure
not
only
causes
difference
second
relaxation,
but
also
strongly
affects
stage,
which
is
quite
different
from
influence
testing
Besides,
temperature
toughness
improved
by
using
diol
partly
replaces
diamine
as
chain
extender,
stress
modulus
drop
down
obviously,
leading
notable
behavior
at
temperatures.
It
found
improvement
ordering
degree
microstructure
or
network
integrity
could
restrict
effective
approach
improve
This
review
explores
the
unique
structural
and
functional
characteristics
of
natural
products
featuring
highly
oxygenated
cyclobutane
rings,
with
a
specific
focus
on
oxetane
1,2-dioxetane
motifs.
It
presents
structures
biological
activities
compounds
containing
these
highlighting
their
contribution
to
molecular
stability
pharmacological
potency.
Through
detailed
case
studies
recent
research
findings,
it
has
been
demonstrated
that
oxygen-rich
rings
enhance
diversity
efficacy
products,
potentially
offering
new
avenues
for
drug
development.
Notably,
are
predominantly
synthesized
by
microorganisms
can
also
be
found
in
extracts
from
fungi,
plants,
certain
marine
invertebrates.
Compounds
primarily
noted
strong
antineoplastic
properties,
among
other
activities.
In
contrast,
most
1,2-dioxetanes
exhibit
potent
antiprotozoal
effects.
is
important
note
often
serve
as
intermediate
oxidation
reactions,
characterized
instability
propensity
decompose
into
compounds.