Crystal Growth & Design,
Journal Year:
2020,
Volume and Issue:
21(1), P. 3 - 15
Published: Nov. 24, 2020
The
subject
of
energetic
crystals
has
been
significantly
enriched
in
the
past
several
decades,
with
number
rising
rapidly.
Meanwhile,
some
new
types
have
appeared,
such
as
extended
solids,
ionic
salts,
metal
organic
frames,
cocrystals,
metallic
hydrogen,
and
perovskites.
They
may
dazzle
us
but
give
rise
to
a
difficulty
understanding
these
compounds
work
achieve
general
knowledge
from
them
design
ones;
thus,
it
becomes
interesting
crucial
categorize
crystals.
In
this
work,
on
basis
primary
constituent
parts
their
interactions
crystal,
we
classify
experimentally
observed
theoretically
predicted
into
five
types,
including
molecular
atomic
mixed-type
crystal;
i.e.,
cover
all
crystal
exhibit
high
diversity.
By
categorization,
will
become
much
easier
understand
predict
various
formation
energy
release
mechanisms
Furthermore,
dependence
level
type
is
summarized,
content
increase
follows
an
order
mixed
crystal.
general,
highly
should
exist
under
pressure,
while
moderate
or
low
can
common
conditions.
Thus,
presents
overall
perspective
structures
materials
makes
increasing
roughly
readily
understandable,
despite
diversity
complexity
structures.
Advanced Functional Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 16, 2025
Abstract
The
utilization
of
organic
cocrystal‐based
superlattice
materials
(OCSMs)
in
the
field
optoelectronics
is
experiencing
significant
advancements
attributable
to
their
accurate
stoichiometric
coefficient
and
distinctive
supramolecular
self‐assembly
structures.
Herein,
an
exhaustive
review
on
development
OCSMs
reported
over
past
few
years
presented,
with
a
primary
focus
following
major
aspects.
First,
emerging
nanostructures
primarily
consist
hydrogen‐bonded
frameworks
(HOFs)
halogen‐bonded
(XOFs),
innovative
cocrystal
heterostructures
(OHSs),
nanomeshes
(OMSs).
Further,
comprehensive
summary
provided
investigation
crystals
film
preparation
techniques
for
OCSMs,
which
encompasses
liquid‐phase
growth,
physical‐vapor‐transfer
methods,
solid‐phase
processes.
characteristics
tunable
fluorescence
emission
rapid
stimulus
response
exhibited
by
these
as
well
applications
memristors,
photothermal
conversion
imaging,
sensors,
FETs,
spin
devices,
are
also
elucidated.
mechanisms
underlying
charge
transfer
effects,
π–π
interactions,
hydrogen
bonds,
halogen
bonds
finally
analyzed
provide
valuable
insights
into
material
design
promising
applications.
RSC Advances,
Journal Year:
2025,
Volume and Issue:
15(19), P. 15276 - 15281
Published: Jan. 1, 2025
Cocrystal
technology
serves
as
an
effective
strategy
to
design
and
develop
novel
melt-cast
carrier
explosives.
The
feasibility
of
two
energetic
cocrystals
(DNAN/NA
ADN/urea)
explosives
was
systematically
evaluated.
Crystal Growth & Design,
Journal Year:
2020,
Volume and Issue:
21(1), P. 3 - 15
Published: Nov. 24, 2020
The
subject
of
energetic
crystals
has
been
significantly
enriched
in
the
past
several
decades,
with
number
rising
rapidly.
Meanwhile,
some
new
types
have
appeared,
such
as
extended
solids,
ionic
salts,
metal
organic
frames,
cocrystals,
metallic
hydrogen,
and
perovskites.
They
may
dazzle
us
but
give
rise
to
a
difficulty
understanding
these
compounds
work
achieve
general
knowledge
from
them
design
ones;
thus,
it
becomes
interesting
crucial
categorize
crystals.
In
this
work,
on
basis
primary
constituent
parts
their
interactions
crystal,
we
classify
experimentally
observed
theoretically
predicted
into
five
types,
including
molecular
atomic
mixed-type
crystal;
i.e.,
cover
all
crystal
exhibit
high
diversity.
By
categorization,
will
become
much
easier
understand
predict
various
formation
energy
release
mechanisms
Furthermore,
dependence
level
type
is
summarized,
content
increase
follows
an
order
mixed
crystal.
general,
highly
should
exist
under
pressure,
while
moderate
or
low
can
common
conditions.
Thus,
presents
overall
perspective
structures
materials
makes
increasing
roughly
readily
understandable,
despite
diversity
complexity
structures.
