Chemistry - A European Journal,
Год журнала:
2024,
Номер
30(67)
Опубликована: Авг. 13, 2024
Abstract
High‐level
pseudocapacitive
materials
require
incorporations
of
significant
redox
regions
into
conductive
and
penetrable
skeletons
to
enable
the
creation
devices
capable
delivering
high
power
for
extended
periods.
Coordination
nanosheets
(CNs)
are
appealing
their
natural
electrical
conductivities,
huge
explicit
surface
regions,
semi‐one‐layered
adjusted
pore
clusters.
Thus,
rational
design
ligands
topological
networks
with
desired
electronic
structure
is
required
advancement
in
this
field.
Herein,
we
report
three
novel
conjugated
CNs
(RV‐10‐M,
M=Zn,
Ni,
Co),
by
utilizing
full
conjugation
terpyridine‐attached
flexible
tetraphenylethylene
(TPE)
units
as
molecular
rotors
at
center.
We
prepare
binder‐free
transparent
supported
on
Ni‐foam
outstanding
properties
via
a
hydrothermal
route
followed
facile
exfoliation.
Among
CNs,
area
RV‐10‐Co
facilitates
fast
transport
ions
electrons
could
achieve
specific
capacity
670.8
C/g
(1677
F/g)
1
A/g
current
density.
Besides,
corresponding
possesses
maximum
energy
density
37.26
Wh
kg
−1
171
W
70
%
capacitance
retention
even
after
1000
cycles.
Journal of the American Chemical Society,
Год журнала:
2023,
Номер
145(32), С. 18075 - 18083
Опубликована: Авг. 2, 2023
We
demonstrate
here
the
assembly
of
a
nanolayer
electrochromic
iron
complexes
on
top
composite
layers
cobalt
and
ruthenium
complexes.
Depending
ratio
latter
two
complexes,
we
can
tailor
materials
that
show
different
electron
transport
pathways,
redox
activities,
color
transitions.
No
activity
layer,
consisting
is
observable
when
relative
amount
low
in
underlying
layer
because
insulating
properties
isostructural
Increasing
opens
an
channel,
resulting
charge
storage
both
The
trapped
charges
be
chemically
released
by
redox-active
ferrocyanide
at
film-water
interface.
Angewandte Chemie,
Год журнала:
2022,
Номер
135(2)
Опубликована: Ноя. 15, 2022
Abstract
Exploring
new
porous
coordination
polymers
(PCPs)
that
have
tunable
structure
and
conductivity
is
attractive
but
remains
challenging.
Herein,
fine
pore
engineering
by
ligand
conformation
control
of
naphthalene
diimide
(NDI)‐based
semiconducting
PCPs
with
π
stacking‐dependent
tunability
achieved.
The
stacking
distances
in
these
isoreticular
were
modulated
employing
metal
centers
different
geometries.
As
a
result,
three
conjugated
(Co−pyNDI,
Ni−pyNDI,
Zn−pyNDI)
varying
obtained.
Their
crystal
structures
determined
three‐dimensional
electron
diffraction.
through‐space
charge
transfer
result
selectivity
sensitivity
gas
sensing.
Zn−pyNDI
can
serve
as
room‐temperature
operable
chemiresistive
sensor
selective
to
acetone.
Langmuir,
Год журнала:
2023,
Номер
39(26), С. 8952 - 8962
Опубликована: Июнь 16, 2023
Metal-organic
frameworks
(MOFs)─crystalline
coordination
polymers─with
unique
characteristics
such
as
structural
designability
accompanied
by
tunable
electronic
properties
and
intrinsic
uniform
nanopores
have
become
the
platform
for
applications
in
diverse
scientific
areas
ranging
from
nanotechnology
to
energy/environmental
sciences.
To
utilize
superior
features
of
MOF
potential
applications,
fabrication
integration
thin
films
are
importance
been
actively
sought.
Especially,
downsized
MOFs
into
nanosheets
can
act
ultimately
functional
components
nanodevices
potentially
display
chemical/physical
rarely
seen
bulk
MOFs.
Assembling
aligning
amphiphilic
molecules
at
air/liquid
interface
has
known
Langmuir
technique.
By
utilizing
a
reaction
field
between
metal
ions
organic
ligands,
readily
formed
nanosheet
state.
The
expected
including
electrical
conduction
largely
depend
on
lateral
size,
thickness,
morphology,
crystallinity,
orientation.
However,
their
control
not
achieved
yet.
Here,
we
demonstrate
how
changing
concentration
ligand
spread
solution
modify
assembly
nanosheets,
composed
2,3,6,7,10,11-hexaiminotriphenylene
(HITP)
Ni2+
(HITP-Ni-NS),
interface.
A
systematic
increase
leads
enlargement
both
size
thickness
while
retaining
perfect
alignment
preferred
On
other
hand,
much
higher
concentrations,
find
that
unreacted
included
HITP-Ni-NS,
introducing
disorder
HITP-Ni-NS.
These
findings
develop
further
sophisticated
features,
accelerating
fundamental
applied
studies
Chemistry - A European Journal,
Год журнала:
2024,
Номер
30(67)
Опубликована: Авг. 13, 2024
Abstract
High‐level
pseudocapacitive
materials
require
incorporations
of
significant
redox
regions
into
conductive
and
penetrable
skeletons
to
enable
the
creation
devices
capable
delivering
high
power
for
extended
periods.
Coordination
nanosheets
(CNs)
are
appealing
their
natural
electrical
conductivities,
huge
explicit
surface
regions,
semi‐one‐layered
adjusted
pore
clusters.
Thus,
rational
design
ligands
topological
networks
with
desired
electronic
structure
is
required
advancement
in
this
field.
Herein,
we
report
three
novel
conjugated
CNs
(RV‐10‐M,
M=Zn,
Ni,
Co),
by
utilizing
full
conjugation
terpyridine‐attached
flexible
tetraphenylethylene
(TPE)
units
as
molecular
rotors
at
center.
We
prepare
binder‐free
transparent
supported
on
Ni‐foam
outstanding
properties
via
a
hydrothermal
route
followed
facile
exfoliation.
Among
CNs,
area
RV‐10‐Co
facilitates
fast
transport
ions
electrons
could
achieve
specific
capacity
670.8
C/g
(1677
F/g)
1
A/g
current
density.
Besides,
corresponding
possesses
maximum
energy
density
37.26
Wh
kg
−1
171
W
70
%
capacitance
retention
even
after
1000
cycles.
