Green Energy & Environment,
Journal Year:
2023,
Volume and Issue:
9(2), P. 217 - 310
Published: Jan. 3, 2023
Carbon
peaking
and
carbon
neutralization
trigger
a
technical
revolution
in
energy
&
environment
related
fields.
Development
of
new
technologies
for
green
production
storage,
industrial
saving
efficiency
reinforcement,
capture,
pollutant
gas
treatment
is
highly
imperious
demand.
The
emerging
porous
framework
materials
such
as
metal–organic
frameworks
(MOFs),
covalent
organic
(COFs)
hydrogen-bonded
(HOFs),
owing
to
the
permanent
porosity,
tremendous
specific
surface
area,
designable
structure
customizable
functionality,
have
shown
great
potential
major
energy-consuming
processes,
including
sustainable
catalytic
conversion,
energy-efficient
separation
storage.
Herein,
this
manuscript
presents
systematic
review
global
comprehensive
applications,
from
macroscopic
application
perspective.
Angewandte Chemie International Edition,
Journal Year:
2021,
Volume and Issue:
60(45), P. 23946 - 23974
Published: March 30, 2021
At
its
core,
reticular
chemistry
has
translated
the
precision
and
expertise
of
organic
inorganic
synthesis
to
solid
state.
While
initial
excitement
over
metal-organic
frameworks
(MOFs)
covalent
(COFs)
was
undoubtedly
fueled
by
their
unprecedented
porosity
surface
areas,
most
profound
scientific
innovation
field
been
elaboration
design
strategies
for
extended
crystalline
solids
through
strong
directional
bonds.
In
this
contribution
we
highlight
different
classes
materials
that
have
developed,
how
these
can
be
functionalized,
complexity
introduced
into
backbones.
Finally,
show
structural
control
is
being
from
molecular
scale
crystal
morphology
shape
on
nanoscale,
all
way
shaping
bulk
scale.
Journal of the American Chemical Society,
Journal Year:
2022,
Volume and Issue:
144(7), P. 3083 - 3090
Published: Feb. 9, 2022
Solar-driven
water
generation
is
a
sustainable
treatment
technology,
helping
to
relieve
global
scarcity
issues.
However,
this
technology
faces
great
challenges
due
the
high
energy
consumption
of
evaporation
yielding
low
rates.
Here,
covalent
organic
framework
(COF)/graphene
dual-region
hydrogel,
containing
hydrophilic
and
hydrophobic
regions
in
one
material,
developed
through
facile
situ
growth
strategy.
The
COF
covering
parts
graphene
regions.
Through
accurate
control
both
wetting
regions,
hybrid
hydrogel
shows
effective
light-harvesting,
tunable
wettability,
optimized
content,
lowered
demand
for
vaporization.
Acting
as
solar
absorber,
exhibits
steam
rate
3.69
kg
m-2
h-1
under
1
sun
irradiation
(1
kW
m-2),
which
competes
well
with
other
state-of-the-art
materials.
Furthermore,
evaporator
can
be
used
produce
drinkable
from
seawater
sewage,
demonstrating
potential
treatment.
Chemical Reviews,
Journal Year:
2023,
Volume and Issue:
123(8), P. 4602 - 4634
Published: April 6, 2023
Porous
organic
cages
(POCs)
are
a
relatively
new
class
of
low-density
crystalline
materials
that
have
emerged
as
versatile
platform
for
investigating
molecular
recognition,
gas
storage
and
separation,
proton
conduction,
with
potential
applications
in
the
fields
porous
liquids,
highly
permeable
membranes,
heterogeneous
catalysis,
microreactors.
In
common
extended
structures,
such
metal–organic
frameworks
(MOFs),
covalent
(COFs),
polymers
(POPs),
POCs
possess
all
advantages
specific
surface
areas,
porosities,
open
pore
channels,
tunable
structures.
addition,
they
discrete
structures
exhibit
good
to
excellent
solubilities
solvents,
enabling
their
solution
dispersibility
processability─properties
not
readily
available
case
well-established,
insoluble,
frameworks.
Here,
we
present
critical
review
summarizing
detail
recent
progress
breakthroughs─especially
during
past
five
years─of
while
taking
close
look
at
strategic
design,
precise
synthesis,
including
both
irreversible
bond-forming
chemistry
dynamic
chemistry,
advanced
characterization,
diverse
applications.
We
highlight
representative
POC
examples
an
attempt
gain
some
understanding
structure–function
relationships.
also
discuss
future
challenges
opportunities
application
POCs.
anticipate
this
will
be
useful
researchers
working
field
when
it
comes
designing
developing
desired
functions.
Chemical Society Reviews,
Journal Year:
2022,
Volume and Issue:
51(15), P. 6307 - 6416
Published: Jan. 1, 2022
This
review
highlights
the
recent
advances
of
metalated
covalent
organic
frameworks,
including
synthetic
strategies
and
applications,
discusses
current
challenges
future
directions.
Advanced Materials,
Journal Year:
2021,
Volume and Issue:
34(22)
Published: July 8, 2021
Recently,
smart
2D
covalent
organic
frameworks
(COFs),
combining
the
advantages
of
both
inherent
structure
features
and
functional
building
blocks,
have
been
demonstrated
to
show
reversible
changes
in
conformation,
color,
luminescence
response
external
stimuli.
This
review
provides
a
summary
on
recent
progress
COFs
that
are
responsive
stimuli
such
as
metal
ions,
gas
molecules,
pH
values,
temperature,
electricity,
light,
etc.
Moreover,
mechanisms
design
strategies,
along
with
applications
these
stimulus-responsive
chemical
sensors
photoelectronic
devices
also
discussed.
It
is
believed
this
would
provide
some
guidelines
for
designing
novel
single-/multistimulus-responsive
controllable
behaviors
advanced
applications.
Chemical Society Reviews,
Journal Year:
2021,
Volume and Issue:
50(16), P. 8874 - 8886
Published: Jan. 1, 2021
This
tutorial
review
summarizes
the
recent
progress
in
utilizing
post-synthetic
modification
to
develop
porous
organic
cage-based
novel
structures
and
materials
that
cannot
be
easily
accessed
via
conventional
predesign
synthesis.
Journal of the American Chemical Society,
Journal Year:
2022,
Volume and Issue:
144(27), P. 12390 - 12399
Published: June 29, 2022
The
reaction
of
5,5′-([2,2′-bipyridine]-5,5′-diyl)diisophthalaldehyde
(BPDDP)
with
cyclohexanediamine
and
[benzidine
(BZ)/[2,2′-bipyridine]-5,5′-diamine
(BPDA)],
respectively,
affords
a
nitrogen-rich
porous
organic
cage
BPPOC
two
two-dimensional
(2D)
covalent
frameworks
(COFs),
USTB-1
USTB-2
(USTB
=
University
Science
Technology
Beijing),
under
suitable
conditions.
Interestingly,
single-crystal
X-ray
diffraction
structure
is
able
to
successfully
transform
into
(newly
converted
COFs
denoted
as
USTB-1c
USTB-2c,
respectively)
upon
exchange
the
imine
unit
in
by
BZ
BPDA.
Such
transformation
also
enables
isolation
analogous
(USTB-3c
USTB-4c)
on
basis
an
isostructural
cage,
BTPOC,
which
derived
from
5,5′-([2,2′-bithiophene]-4,4′-diyl)diisophthalaldehyde
(BTDDP)
cyclohexanediamine.
However,
conventional
solvothermal
between
BTDDP
BPDA
leads
impure
phase
USTB-4
containing
incompletely
aldehyde
groups
due
limited
solubility
building
block.
newly
prepared
have
been
characterized
nuclear
magnetic
resonance
spectroscopy,
Fourier
infrared
scanning
electron
microscopy,
transmission
microscopy.
In
particular,
absorb
iodine
vapor
uptake
5.64
g
g–1,
breaking
cage's
(POC's)
record
value
3.78
g–1.
Nevertheless,
cage-derived
exhibit
improved
adsorption
capability
comparison
directly
synthesized
counterparts,
highest
5.80
g–1
for
USTB-1c.
mechanism
investigation
unveils
superiority
nitrogen
atoms
sulfur
POCs
capture
assistance
definite
crystal
structures.
This,
combination
porosity,
synergistically
influences
capacity
COFs.
Journal of the American Chemical Society,
Journal Year:
2021,
Volume and Issue:
143(7), P. 2654 - 2659
Published: Feb. 10, 2021
The
growth
of
three-dimensional
covalent
organic
frameworks
(3D
COFs)
with
new
topologies
is
still
considered
as
a
great
challenge
due
to
limited
availability
high-connectivity
building
units.
Here
we
report
the
design
and
synthesis
3D
triptycene-based
COFs,
termed
JUC-568
JUC-569,
following
deliberate
symmetry-guided
principle.
By
combining
triangular
prism
(6-connected)
node
planar
triangle
(3-connected)
or
another
node,
targeted
COFs
adopt
non-interpenetrated
ceq
acs
topology,
respectively.
Both
materials
show
permanent
porosity
impressive
performance
in
adsorption
CO2
(∼98
cm3/g
at
273
K
1
bar),
CH4
(∼48
especially
H2
(up
274
2.45
wt
%
77
which
highest
among
porous
reported
date.
This
research
thus
provides
promising
strategy
for
diversifying
based
on
complex
blocks
promotes
their
potential
applications
energy
storage
environment-related
fields.
