IEEE Access,
Journal Year:
2022,
Volume and Issue:
10, P. 78176 - 78218
Published: Jan. 1, 2022
Research
on
100%
renewable
energy
systems
is
a
relatively
recent
phenomenon.
It
was
initiated
in
the
mid-1970s,
catalyzed
by
skyrocketing
oil
prices.
Since
mid-2000s,
it
has
quickly
evolved
into
prominent
research
field
encompassing
an
expansive
and
growing
number
of
groups
organizations
across
world.
The
main
conclusion
most
these
studies
that
renewables
feasible
worldwide
at
low
cost.
Advanced
concepts
methods
now
enable
to
chart
realistic
as
well
cost-
or
resource-optimized
efficient
transition
pathways
future
without
use
fossil
fuels.
Such
proposed
turn,
have
helped
spur
policy
targets
actions,
leading
more
research.
In
pathways,
solar
wind
power
increasingly
emerge
central
pillars
sustainable
system
combined
with
efficiency
measures.
Cost-optimization
modeling
greater
resource
availability
tend
lead
higher
photovoltaic
shares,
while
emphasis
supply
diversification
tends
point
contributions.
Recent
focused
challenges
opportunities
regarding
grid
congestion,
storage,
sector
coupling,
electrification
transport
industry
implying
power-to-X
hydrogen-to-X,
inclusion
natural
technical
carbon
dioxide
removal
(CDR)
approaches.
result
holistic
vision
towards
net-negative
greenhouse
gas
emissions
economy
can
limit
global
warming
1.5°C
clearly
defined
budget
cost-effective
manner
based
energy-industry-CDR
systems.
Initially,
encountered
very
strong
skepticism.
Therefore,
this
paper
also
includes
response
major
critiques
against
systems,
discusses
institutional
inertia
hampers
adoption
International
Energy
Agency
Intergovernmental
Panel
Climate
Change,
possible
negative
connections
community
acceptance
justice.
We
conclude
discussing
how
emergent
further
progress
benefit
society.
Chemical Reviews,
Journal Year:
2020,
Volume and Issue:
120(14), P. 6738 - 6782
Published: June 28, 2020
There
is
an
urgent
global
need
for
electrochemical
energy
storage
that
includes
materials
can
provide
simultaneous
high
power
and
density.
One
strategy
to
achieve
this
goal
with
pseudocapacitive
take
advantage
of
reversible
surface
or
near-surface
Faradaic
reactions
store
charge.
This
allows
them
surpass
the
capacity
limitations
electrical
double-layer
capacitors
mass
transfer
batteries.
The
past
decade
has
seen
tremendous
growth
in
understanding
pseudocapacitance
as
well
exhibit
phenomenon.
purpose
Review
examine
fundamental
development
concept
how
it
came
prominence
describe
new
classes
whose
behavior
be
described
pseudocapacitive.
Energy & Environmental Science,
Journal Year:
2019,
Volume and Issue:
13(2), P. 331 - 344
Published: Dec. 28, 2019
The
future
of
green
ammonia
as
long-term
energy
storage
relies
on
the
replacement
conventional
CO2intensive
methane-fed
Haber–Bosch
process
by
distributed
and
agile
ones
aligned
to
geographically
isolated
intermittent
renewable
energy.
Angewandte Chemie International Edition,
Journal Year:
2020,
Volume and Issue:
59(32), P. 13180 - 13191
Published: March 3, 2020
Abstract
Aqueous
zinc‐ion
batteries
have
rapidly
developed
recently
as
promising
energy
storage
devices
in
large‐scale
systems
owing
to
their
low
cost
and
high
safety.
Research
on
suppressing
zinc
dendrite
growth
has
meanwhile
attracted
widespread
attention
improve
the
lifespan
reversibility
of
batteries.
Herein,
design
methods
for
dendrite‐free
anodes
internal
mechanisms
are
reviewed
from
perspective
optimizing
host–zinc
interface
zinc–electrolyte
interface.
Furthermore,
a
strategy
is
proposed
homogenize
deposition
by
regulating
interfacial
electric
field
ion
distribution
during
nucleation
growth.
This
Minireview
can
offer
potential
directions
rational
employed
aqueous
Chemical Reviews,
Journal Year:
2022,
Volume and Issue:
122(22), P. 16610 - 16751
Published: Sept. 23, 2022
Ever-increasing
global
energy
consumption
has
driven
the
development
of
renewable
technologies
to
reduce
greenhouse
gas
emissions
and
air
pollution.
Battery
storage
systems
(BESS)
with
high
electrochemical
performance
are
critical
for
enabling
yet
intermittent
sources
such
as
solar
wind.
In
recent
years,
numerous
new
battery
have
been
achieved
showed
great
potential
grid
scale
(GSES)
applications.
However,
their
practical
applications
greatly
impeded
due
gap
between
breakthroughs
in
research
laboratories
industrial
addition,
various
complex
call
different
performances.
Matching
diverse
batteries
is
required
promote
achievement.
This
review
provides
in-depth
discussion
comprehensive
consideration
field
GSES.
The
overall
requirements
key
parameters
systematically
analyzed
by
generating
standards
measures
We
also
discuss
progress
existing
challenges
some
representative
promise
GSES,
including
metal-ion
batteries,
lead–acid
molten-salt
alkaline
redox-flow
metal–air
hydrogen-gas
batteries.
Moreover,
we
emphasize
importance
bringing
emerging
from
academia
industry.
Our
perspectives
on
future
GSES
provided.
Renewable and Sustainable Energy Reviews,
Journal Year:
2022,
Volume and Issue:
159, P. 112213 - 112213
Published: Feb. 10, 2022
Currently,
the
energy
grid
is
changing
to
fit
increasing
demands
but
also
support
rapid
penetration
of
renewable
sources.
As
a
result,
storage
devices
emerge
add
buffer
capacity
and
reinforce
residential
commercial
usage,
as
an
attempt
improve
overall
utilization
available
green
energy.
Although
various
research
has
been
conducted
in
field
including
photovoltaic
wind
applications,
study
on
suitability
identification
different
for
stationary
application
types
still
gap
observed
which
needs
further
verification.
The
review
performed
fills
these
gaps
by
investigating
current
status
applicability
devices,
most
suitable
type
technologies
applications
are
identified.
Moreover,
technical,
economic
environmental
impact
evaluation
criteria's
taken
into
consideration
their
characteristics
potentials.
comprehensive
shows
that,
from
electrochemical
category,
lithium-ion
battery
fits
both
low
medium-size
with
high
power
density
requirements.
From
electrical
categories,
capacitors,
supercapacitors,
superconductive
magnetic
identified
appropriate
applications.
Besides,
thermal
seasonal
bulk
areas.
With
proper
application's
requirement
based
techno-economic,
investigations
use
hybrid
solutions
combination
found
be
viable
solution
sector.
Angewandte Chemie International Edition,
Journal Year:
2019,
Volume and Issue:
58(31), P. 10500 - 10505
Published: June 4, 2019
Graphite
as
an
anode
for
the
potassium
ion
battery
(PIBs)
has
merits
of
low
cost
and
potentially
high
energy
density,
while
suffering
from
limited
cycle
time
inferior
stability.
Herein
we,
using
a
concentrated
electrolyte,
demonstrate
that
formation
robust
inorganic-rich
passivation
layer
on
graphite
could
resolve
these
problems.
Consequently,
PIBs
with
operate
over
2000
cycles
(running
17
months)
negligible
capacity
decay,
had
area
7.36
mAh
cm-2
mass
loading
28.56
mg
.
These
unprecedented
performances
are
comparable
to
traditional
lithium-ion
batteries,
may
promote
rapidly
development
performance
PIBs.
