Particuology,
Год журнала:
2023,
Номер
86, С. 160 - 181
Опубликована: Май 30, 2023
The
demand
for
large-scale
energy
storage
is
increasing
due
to
the
decreasing
non-renewable
resources
and
deteriorating
environmental
pollution.
Developing
rechargeable
batteries
with
high
density
long
cycle
performance
an
ideal
choice
meet
of
system.
development
excellent
electrode
particles
great
significance
in
commercialization
next-generation
batteries.
should
balance
raw
material
reserves,
electrochemical
performance,
price
protection.
Among
them,
particulate
materials
properties
top
priority
at
present.
In
this
review,
typical
researches
are
summarized
terms
crystal
structure,
morphology,
pore
surface
interface
regulation.
Firstly,
structural
characteristics
improvement
methods
transition
metal
oxides,
polyanionic
compounds,
Prussian
blue
their
analogues
introduced.
Then,
different
effects
pore,
structure
on
discussed.
For
designing
high-performance
materials,
preparation
route
be
set
according
particle
synergistic
effect
various
optimization
adopted.
At
same
time,
addition
other
components
batteries,
such
as
current
collector,
separator
electrolytes,
optimized
improve
overall
This
review
would
provide
important
guiding
principle
materials.
Advanced Materials,
Год журнала:
2023,
Номер
35(14)
Опубликована: Фев. 17, 2023
With
the
ultimate
atomic
utilization,
well-defined
configuration
of
active
sites
and
unique
electronic
properties,
catalysts
with
single-atom
(SASs)
exhibit
appealing
performance
for
electrocatalytic
green
hydrogen
generation
from
water
splitting
further
utilization
via
hydrogen-oxygen
fuel
cells,
such
that
a
vast
majority
synthetic
strategies
toward
SAS-based
(SASCs)
are
exploited.
In
particular,
room-temperature
electrosynthesis
under
atmospheric
pressure
offers
novel,
safe,
effective
route
to
access
SASs.
Herein,
recent
progress
in
ambient
SASs
sustainable
future
opportunities
discussed.
A
systematic
summary
is
started
on
three
kinds
electrochemically
routes
SASs,
including
electrochemical
etching
(ECE),
direct
electrodeposition
(DED),
leaching-redeposition
(ELR),
associated
advanced
characterization
techniques.
Next,
their
applications
energy
conversion
evolution
reaction,
oxygen
overall
splitting,
reduction
reaction
reviewed.
Finally,
brief
conclusion
remarks
challenges
regarding
development
high-performance
cost-effective
SASCs
many
other
presented.
Nano-Micro Letters,
Год журнала:
2025,
Номер
17(1)
Опубликована: Янв. 27, 2025
Abstract
Fluorinated
gases
(F-gases)
play
a
vital
role
in
the
chemical
industry
and
fields
of
air
conditioning,
refrigeration,
health
care,
organic
synthesis.
However,
direct
emission
waste
containing
F-gases
into
atmosphere
contributes
to
greenhouse
effects
generates
toxic
substances.
Developing
porous
materials
for
energy-efficient
capture,
separation,
recovery
is
highly
desired.
Recently,
as
designable
adsorbents,
metal–organic
frameworks
(MOFs)
exhibit
excellent
selective
sorption
performance
toward
F-gases,
especially
recognition
separation
different
with
similar
properties,
showing
their
great
potential
control
recovery.
In
this
review,
we
discuss
capture
azeotropic,
near-azeotropic,
isomeric
mixtures
various
application
scenarios
by
MOFs,
specifically
classify
analyze
molecular
interaction
between
interpret
mechanisms
underlying
high
regarding
both
adsorption
capacity
selectivity,
providing
repertoire
future
design.
Challenges
faced
transformation
research
roadmap
MOFs
adsorbent
technologies
are
also
discussed,
areas
endeavors
highlighted.
NPG Asia Materials,
Год журнала:
2023,
Номер
15(1)
Опубликована: Март 31, 2023
Abstract
Nanoarchitectonics
describes
the
integration
of
nanotechnology
with
other
fields
as
a
postnanotechnology
concept
that
elevates
it
to
material
science.
Based
on
this
fundamental
principle,
we
address
pore-engineered
nanoarchitectonics
application
targets
for
cancer
therapy
by
combining
basic
descriptions
and
exemplifying
applications
in
review.
The
initial
two
sections
briefly
summarize
basics
according
classification
based
(i)
porosity
(ii)
composition.
Afterward,
main
application-oriented
section—designing
mesoporous
therapy—is
presented.
Various
types
drug
delivery
systems,
including
nanoparticles
nanocarriers,
endogenous
stimuli-responsive
delivery,
exogenous
targeted
are
described.
Importantly,
clinical
translation
materials
is
further
discussed.
Mesoporous
unique
offer
network
cavities
vehicles
nanocarriers.
Regarding
developments
allow
be
broadly
used
settings,
there
several
challenges
should
solved
their
application.
From
perspective,
tremendous
processes
development
materials.
Catalysis Today,
Год журнала:
2023,
Номер
426, С. 114365 - 114365
Опубликована: Сен. 9, 2023
Zeolites
today
are
a
unique
and
highly
successful
class
of
catalytic
materials,
but
their
role
in
future
low-carbon
scenarios
comes
into
question.
This
perspective
article
summarises
the
authors'
joint
view
on
zeolite
chemistry's
direction
for
applications
to
stimulate
discussion
identifying
pillars
which
scientific
community
should
focus.
Particular
challenges
discussed
here
include
i)
our
synthesis
focused
new
structures
with
optimised
textural
properties
design
catalysts
precise
control
location
active
sites;
ii)
current,
mostly
industrial,
requests
zeolitic
catalysts;
iii)
emerging
zeolites
play
key
role;
last
not
least
iv)
opportunities
types
microporous
solids.
Although
some
these
rather
challenging,
many
barriers
overcome,
we
suggest
fostering
research
directions
as
maintaining
crucial
catalysts.
Discussion
science
technology
is
organised
consideration
three
possible
scenarios:
(i)
BAU
(business-as-usual)
scenario
(ii)
two
advanced
scenarios,
differ
terms
degree
circularity
(low
high,
LC
HC
respectively),
(iii)
level
substitution
fossil
fuels
alternative
energy
carbon
sources.
Trends
characterising
impact
provide
readers
elements,
tools
clues
identify
priorities
application
ACS Nano,
Год журнала:
2024,
Номер
18(33), С. 21836 - 21854
Опубликована: Авг. 7, 2024
Single
metal
atom
catalysts
(SACs)
have
garnered
considerable
attention
as
promising
agents
for
catalyzing
important
industrial
reactions,
particularly
the
electrochemical
synthesis
of
hydrogen
peroxide
(H