Nano-Micro Letters,
Год журнала:
2024,
Номер
16(1)
Опубликована: Май 14, 2024
Photosensors
with
versatile
functionalities
have
emerged
as
a
cornerstone
for
breakthroughs
in
the
future
optoelectronic
systems
across
wide
range
of
applications.
In
particular,
emerging
photoelectrochemical
(PEC)-type
devices
recently
attracted
extensive
interest
liquid-based
biosensing
applications
due
to
their
natural
electrolyte-assisted
operating
characteristics.
Herein,
PEC-type
photosensor
was
carefully
designed
and
constructed
by
employing
gallium
nitride
(GaN)
p-n
homojunction
semiconductor
nanowires
on
silicon,
p-GaN
segment
strategically
doped
then
decorated
cobalt-nickel
oxide
(CoNiO
Chemical Reviews,
Год журнала:
2023,
Номер
123(9), С. 5347 - 5420
Опубликована: Апрель 12, 2023
Enzymatic
catalysis
has
fueled
considerable
interest
from
chemists
due
to
its
high
efficiency
and
selectivity.
However,
the
structural
complexity
vulnerability
hamper
application
potentials
of
enzymes.
Driven
by
practical
demand
for
chemical
conversion,
there
is
a
long-sought
quest
bioinspired
catalysts
reproducing
even
surpassing
functions
natural
As
nanoporous
materials
with
surface
areas
crystallinity,
metal-organic
frameworks
(MOFs)
represent
an
exquisite
case
how
enzymes
their
active
sites
are
integrated
into
porous
solids,
affording
heterogeneous
superior
stability
customizable
structures.
In
this
review,
we
comprehensively
summarize
advances
MOFs
catalysis,
discuss
design
principle
various
MOF-based
catalysts,
such
as
MOF-enzyme
composites
embedded
sites,
explore
utility
these
in
different
reactions.
The
advantages
enzyme
mimetics
also
highlighted,
including
confinement,
templating
effects,
functionality,
comparison
homogeneous
supramolecular
catalysts.
A
perspective
provided
potential
solutions
addressing
current
challenges
MOF
catalysis.
Advanced Functional Materials,
Год журнала:
2021,
Номер
31(52)
Опубликована: Сен. 23, 2021
Abstract
Assessment
of
glucose
concentration
is
important
in
the
diagnosis
and
treatment
diabetes.
Since
introduction
enzymatic
biosensors,
scientific
technological
advances
nanomaterials
have
led
to
development
new
generations
sensors.
This
field
has
witnessed
major
developments
over
last
decade,
as
novel
are
capable
efficiently
catalyzing
directly
(i.e.,
act
artificial
enzymes,
therefore
defined
nanozymes)
or
entrap
enzymes
that
able
oxidize
glucose.
Among
other
nanomaterials,
metal–organic
frameworks
(MOFs)
recently
provided
a
tremendous
basis
construct
sensing
devices.
MOFs
large
porous
crystalline
compounds
with
versatile
structural
tuneable
chemical
properties.
In
addition,
they
possess
catalytic,
peroxidase‐like,
electrochemical
redox
activity.
review
comprehensively
summarizes
general
characteristics
MOFs,
their
subtypes,
MOF
composites,
well
MOF‐derived
materials
employed
electrochemical,
optical,
transistor,
microfluidic
devices
for
detection
They
include
enzymatic,
nonenzymatic,
wearable,
flexible
methods.
The
also
outlines
design
synthesis
working
principles
different
transduction‐based
sensors
highlights
current
challenges
future
perspectives.
Journal of the American Chemical Society,
Год журнала:
2024,
Номер
146(13), С. 9385 - 9394
Опубликована: Март 21, 2024
The
shuttling
of
polysulfides
on
the
cathode
and
uncontrollable
growth
lithium
dendrites
anode
have
restricted
practical
application
lithium–sulfur
(Li–S)
batteries.
In
this
study,
a
metal-coordinated
3D
covalent
organic
framework
(COF)
with
homogeneous
distribution
nickel–bis(dithiolene)
N-rich
triazine
centers
(namely,
NiS4-TAPT)
was
designed
synthesized,
which
can
serve
as
bifunctional
hosts
for
both
sulfur
cathodes
anodes
in
Li–S
abundant
Ni
N-sites
NiS4-TAPT
greatly
enhance
adsorption
conversion
polysulfides.
Meanwhile,
presence
Ni–bis(dithiolene)
enables
uniform
Li
nucleation
at
anode,
thereby
suppressing
dendrites.
This
work
demonstrated
effectiveness
integrating
catalytic
sites
to
optimize
chemical
interactions
between
host
materials
redox-active
intermediates,
potentially
facilitating
rational
design
COF
high-performance
secondary
Journal of the American Chemical Society,
Год журнала:
2022,
Номер
144(18), С. 8267 - 8277
Опубликована: Апрель 28, 2022
Combining
the
chemistry
of
metal-organic
frameworks
(MOFs)
and
covalent
organic
(COFs)
can
bring
new
opportunities
for
design
advanced
materials
with
enhanced
tunability
functionality.
Herein,
we
constructed
two
COFs
based
on
Ni-bis(dithiolene)
units
imine
bonds,
representing
a
bridge
between
traditional
MOFs
COFs.
The
Ni-bis(dithiolene)tetrabenzaldehyde
as
4-connected
linker
was
initially
synthesized,
which
further
linked
by
tetra(aminophenyl)pyrene
(TAP)
or
3-connected
tris(aminophenyl)amine
(TAA)
linkers
into
COFs,
namely,
Ni-TAP
Ni-TAA.
shows
two-dimensional
sql
network,
while
TAA
is
twofold
interpenetrated
framework
an
ffc
topology.
They
both
exhibit
high
Brunauer-Emmett-Teller
surface
area
(324
689
m2
g-1
Ni-TAA,
respectively),
fairly
good
conductivity
(1.57
×
10-6
9.75
10-5
S
m-1
chemical
stability
(a
stable
pH
window
1-14
Ni-TAA).
When
applied
in
lithium
metal
batteries
intermediate
layer
guiding
uniform
Li
electrodeposition,
Ni-TAA
displayed
impressive
lithiophilicity
Li-ion
conductivity,
enabling
achievement
smooth
dense
deposition
clear
columnar
morphology
plating/stripping
behaviors
utilization,
anticipated
to
pave
way
upgrade
anodes
application
high-energy-density
battery
systems.
Chemical Society Reviews,
Год журнала:
2023,
Номер
53(1), С. 137 - 162
Опубликована: Ноя. 29, 2023
Natural
metalloenzymes
with
astonishing
reaction
activity
and
specificity
underpin
essential
life
transformations.
Nevertheless,
enzymes
only
operate
under
mild
conditions
to
keep
sophisticated
structures
active,
limiting
their
potential
applications.
Artificial
that
recapitulate
the
catalytic
of
can
not
circumvent
enzymatic
fragility
but
also
bring
versatile
functions
into
practice.
Among
them,
metal-organic
frameworks
(MOFs)
featuring
diverse
site-isolated
metal
sites
supramolecular
have
emerged
as
promising
candidates
for
move
toward
unparalleled
properties
behaviour
enzymes.
In
this
review,
we
systematically
summarize
significant
advances
in
MOF-based
metalloenzyme
mimics
a
special
emphasis
on
active
pocket
engineering
at
atomic
level,
including
primary
secondary
coordination
spheres.
Then,
deep
understanding
mechanisms
advanced
applications
are
discussed.
Finally,
perspective
emerging
frontier
research
is
provided
advance
bioinspired
catalysis.
Coordination Chemistry Reviews,
Год журнала:
2023,
Номер
501, С. 215534 - 215534
Опубликована: Ноя. 25, 2023
Over
recent
decades,
the
widespread
use
of
pesticides
has
been
instrumental
in
securing
a
global
food
supply.
However,
this
led
to
significant
environmental
pollution
concerns.
Given
prevalent
organophosphorus
(OPs),
there
is
an
urgent
need
develop
sensors
that
can
detect
OPs
with
high
selectivity
and
sensitivity.
Electrochemical
offer
affordable
highly
efficient
solution
for
challenge.
Particularly,
have
remarkable
advancements
creating
metal–organic
framework
(MOF)-based
electrochemical
sensors.
This
review
delves
into
current
MOF-based
sensors,
emphasizing
their
detecting
OPs.
We
investigate
MOF
modifications,
detail
methods
affixing
materials
various
electrodes,
compare
performance
stability
these
methods.
also
provide
insights
design
principles
MOFs
used
detection
OPs,
breaking
down
core
mechanism.
hope
our
will
guide
researchers
developing
sustainable,
effective,
robust
portable
