RSC Advances,
Journal Year:
2023,
Volume and Issue:
13(49), P. 34562 - 34575
Published: Jan. 1, 2023
Metal-organic
frameworks
(MOFs)
and
MXenes
have
demonstrated
immense
potential
for
biomedical
applications,
offering
a
plethora
of
advantages.
MXenes,
in
particular,
exhibit
robust
mechanical
strength,
hydrophilicity,
large
surface
areas,
significant
light
absorption
potential,
tunable
terminations,
among
other
remarkable
characteristics.
Meanwhile,
MOFs
possess
high
porosity
area,
making
them
ideal
protecting
active
biomolecules
serving
as
carriers
drug
delivery,
hence
their
extensive
study
the
field
biomedicine.
However,
akin
to
(nano)materials,
concerns
regarding
environmental
implications
persist.
The
number
studies
investigating
toxicity
biocompatibility
is
growing,
albeit
further
systematic
research
needed
thoroughly
understand
biosafety
issues
biological
effects
prior
clinical
trials.
synthesis
often
involves
use
strong
acids
temperatures,
which,
if
not
properly
managed,
can
adverse
on
environment.
Efforts
should
be
made
minimize
release
harmful
byproducts
ensure
proper
waste
management
during
production
process.
In
addition,
it
crucial
assess
into
environment
applications.
For
applications
MOFs,
several
challenges
exist.
These
include
fabrication
costs,
poor
selectivity,
low
capacity,
quest
stable
water-resistant
well
difficulties
recycling/regeneration
maintaining
chemical/thermal/mechanical
stability.
Thus,
careful
consideration
associated
with
utilization
vital.
addition
manufacturing
processes,
ultimate
fate
must
taken
account.
While
numerous
reviews
been
published
this
perspective
aims
shed
key
issues,
urging
researchers
conduct
field.
aspects
biomedicine
are
discussed,
focusing
main
outlining
future
directions.
Advanced Energy Materials,
Journal Year:
2022,
Volume and Issue:
13(3)
Published: Dec. 2, 2022
Abstract
One
of
the
most
exciting
new
developments
in
energy
storage
technology
is
Zn‐ion
hybrid
supercapacitors
(ZHSCs).
ZHSCs
combine
batteries
with
(SCs)
to
address
and
power
needs
portable
devices
electric
automobiles.
Low
density
development
cathode
material
are
significant
issues
for
ZHSCs.
This
review
provides
an
in‐depth
investigation
charge
mechanisms
from
SCs
The
advantages/disadvantages
ZHSCs,
recent
materials,
design
device
fabrications
critically
summarized.
New
materials
should
be
developed
achieve
high
while
preserving
inherent
capability
stability.
People
increasingly
engage
smart
electronic
gadgets,
demanding
flexible,
resilient,
highly
safe
devices.
ZHSC
has
emerged
as
a
complete
alternative
risky
sodium‐ion/lithium‐ion
technologies.
An
overview
all
reported
carbon‐based,
biomass‐derived
carbons,
metal
oxides,
MOFs,
COFs,
MXenes,
graphene,
composite
employed
comprehensively
provided.
Furthermore,
micro,
wire‐shaped,
printed,
photo‐rechargeable
also
examined
their
practical
challenges.
anticipated
offer
valuable
recommendations
designing
manipulating
high‐performance
real‐world
applications.
ACS Nano,
Journal Year:
2023,
Volume and Issue:
18(1), P. 28 - 66
Published: Dec. 20, 2023
Covalent
organic
frameworks
(COFs)
have
attracted
considerable
interest
in
the
field
of
rechargeable
batteries
owing
to
their
three-dimensional
(3D)
varied
pore
sizes,
inerratic
porous
structures,
abundant
redox-active
sites,
and
customizable
structure-adjustable
frameworks.
In
context
metal-ion
batteries,
these
materials
play
a
vital
role
electrode
materials,
effectively
addressing
critical
issues
such
as
low
ionic
conductivity,
limited
specific
capacity,
unstable
structural
integrity.
However,
electrochemical
characteristics
developed
COFs
still
fall
short
practical
battery
requirements
due
inherent
electronic
tradeoff
between
capacity
redox
potential,
unfavorable
micromorphology.
This
review
provides
comprehensive
overview
recent
advancements
application
COFs,
COF-based
composites,
derivatives
including
lithium-ion,
lithium-sulfur,
sodium-ion,
sodium-sulfur,
potassium-ion,
zinc-ion,
other
multivalent
batteries.
The
operational
mechanisms
are
elucidated,
along
with
strategies
implemented
enhance
properties
broaden
range
applications.
Cleaner Engineering and Technology,
Journal Year:
2023,
Volume and Issue:
12, P. 100598 - 100598
Published: Jan. 23, 2023
Optimal
deployment
of
renewable
and
cleaner
energy
in
power
system
operations
has
been
the
topic
interest
to
achieve
deep
cuts
greenhouse
gas
emissions.
However,
intermittency
wind
solar
impedes
large-scale
penetration
generation
(RPG)
into
grid.
Use
electrical
storage
(EES)
facilities
great
potential
mitigating
variability
RPG,
will
allow
reducing
dependency
on
fossil
fuel
based
generators
(FFBG).
Hybrid
systems
(HPS)
using
both
RPGs
FFBGs
are
an
alternative
means
dealing
with
problem.
modelling
different
integrated
EES
FFBG
consideration
operational
constraints,
scheduling
strategies,
other
objectives
is
a
challenging
task.
Previous
research
review
articles
have
mostly
focused
modelling,
sizing,
modes
operation
techno
economic
aspects
HPS
independently.
no
reviews
specific
issues
various
small
scale
large
published
date.
This
work
presents
comprehensive
overview
recent
developments
six
+
three
hybrid
underlines
objectives,
detailed
real
time
analysis,
solution
methodologies.
The
discussion
covers
stand-alone
grid
connected
mode,
looks
at
growing
application
artificial
intelligence
(AI)
strategies
for
evaluation
optimal
paradigms.
proposed
strengthen
key
directions
future
integration
provide
context
development
economic,
efficient
reliable
system.
