IGI Global eBooks,
Journal Year:
2025,
Volume and Issue:
unknown, P. 437 - 466
Published: April 25, 2025
The
transition
to
a
carbon-neutral
economy
necessitates
shift
from
fossil
fuels
renewable
energy
sources,
with
hydrogen
emerging
as
promising
solution
due
its
environmental
benefits.
Hydrogen-powered
vehicles
produce
zero
CO2
emissions,
positioning
key
player
in
decarbonizing
the
transportation
sector
and
achieving
net-zero
goals.
However,
challenges
generation,
storage,
infrastructure
development
remain
significant
barriers
widespread
adoption.
This
paper
offers
comprehensive
analysis
of
storage
technologies,
including
gaseous,
liquid,
solid-state
methods,
while
also
focusing
on
porous
media,
which
show
great
potential
for
enhanced
capabilities.
By
summarizing
recent
advancements
examining
various
systems,
this
research
aims
support
growth
sector,
ultimately
contributing
sustainable
addressing
pressing
challenges.
International Journal of Hydrogen Energy,
Journal Year:
2024,
Volume and Issue:
67, P. 1270 - 1294
Published: March 27, 2024
The
demand
for
clean
and
sustainable
energy
solutions
is
escalating
as
the
global
population
grows
economies
develop.
Fossil
fuels,
which
currently
dominate
sector,
contribute
to
greenhouse
gas
emissions
environmental
degradation.
In
response
these
challenges,
hydrogen
storage
technologies
have
emerged
a
promising
avenue
achieving
sustainability.
This
review
provides
an
overview
of
recent
advancements
in
materials
technologies,
emphasizing
importance
efficient
maximizing
hydrogen's
potential.
highlights
physical
methods
such
compressed
(reaching
pressures
up
70
MPa)
material-based
approaches
utilizing
metal
hydrides
carbon-containing
substances.
It
also
explores
design
considerations,
computational
chemistry,
high-throughput
screening,
machine-learning
techniques
employed
developing
materials.
comprehensive
analysis
showcases
potential
addressing
demands,
reducing
emissions,
driving
innovation.
Materials Chemistry and Physics,
Journal Year:
2024,
Volume and Issue:
325, P. 129710 - 129710
Published: July 14, 2024
Hydrogen
energy
has
been
proposed
as
a
reliable
and
sustainable
source
of
which
could
play
an
integral
part
in
demand
for
foreseeable
environmentally
friendly
energy.
Biomass,
fossil
fuels,
waste
products,
clean
sources
like
solar
wind
power
can
all
be
employed
producing
hydrogen.
This
comprehensive
review
paper
provides
thorough
overview
various
hydrogen
storage
technologies
available
today
along
with
the
benefits
drawbacks
each
technology
context
capacity,
efficiency,
safety,
cost.
Since
safety
concerns
are
among
major
barriers
to
broad
application
H2
fuel
source,
special
attention
paid
implications
techniques.
In
addition,
this
highlights
key
challenges
opportunities
facing
development
commercialization
technologies,
including
need
improved
materials,
enhanced
system
integration,
increased
awareness,
acceptance.
Finally,
recommendations
future
research
development,
particular
focus
on
advancing
these
towards
commercial
viability.
Small,
Journal Year:
2024,
Volume and Issue:
20(47)
Published: Aug. 16, 2024
Abstract
Metal‐organic
frameworks
(MOFs)
are
a
new
variety
of
solid
crystalline
porous
functional
materials.
As
an
extension
inorganic
materials,
it
has
made
important
progress
in
preparation
and
application.
MOFs
widely
used
various
fields
such
as
gas
adsorption
storage,
drug
delivery,
sensing,
biological
imaging
due
to
their
high
specific
surface
area,
porosity,
adjustable
pore
size,
abundant
active
sites,
modification
by
introducing
groups.
In
this
paper,
the
types
classified,
synthesis
methods
mechanisms
materials
summarized.
Finally,
application
prospects
challenges
metal‐organic
framework
biomedical
field
discussed,
hoping
promote
multidisciplinary
fields.
Journal of Energy Storage,
Journal Year:
2024,
Volume and Issue:
95, P. 112376 - 112376
Published: July 3, 2024
Hydrogen,
globally
recognized
as
the
most
efficient
and
clean
energy
carrier,
holds
potential
to
transform
future
systems
through
its
use
a
fuel
chemical
resource.
Although
progress
has
been
made
in
reversible
hydrogen
adsorption
release,
challenges
storage
continue
impede
widespread
adoption.
This
review
explores
recent
advancements
materials
synthesis
methods,
emphasizing
role
of
nanotechnology
innovative
techniques
enhancing
performance
addressing
these
drive
field.
The
provides
comprehensive
overview
various
material
classes,
including
metal
hydrides,
complex
carbon
materials,
metal-organic
frameworks
(MOFs),
porous
materials.
Over
60
%
reviewed
studies
focused
on
hydrides
alloys
for
storage.
Additionally,
impact
importance
optimizing
parameters
tailor
properties
specific
applications
are
summarized.
Various
methods
evaluated,
with
special
emphasis
improving
performance.
Mechanical
milling
emerges
commonly
used
cost-effective
method
fabricating
intermetallic
capable
adjusting
properties.
also
tank
embrittlement
mechanisms,
particularly
subcritical
crack
growth,
examines
advantages
limitations
different
applications,
supported
by
case
showcasing
real-world
implementations.
underscore
current
highlighting
need
improved
capacity
kinetics.
prospects
developing
enhanced
safety,
providing
roadmap
ongoing
Key
findings
directions
research
emphasize
their
critical
shaping
systems.
Wiley Interdisciplinary Reviews Energy and Environment,
Journal Year:
2024,
Volume and Issue:
13(3)
Published: May 1, 2024
Abstract
In
the
pursuit
of
sustainable
energy
solutions,
hydrogen
emerges
as
a
promising
candidate
for
decarbonization.
The
United
States
has
potential
to
sell
wind
at
record‐low
price
2.5
cents/kWh,
making
production
electricity
up
four
times
cheaper
than
natural
gas.
Hydrogen's
appeal
stems
from
its
highly
exothermic
reaction
with
oxygen,
producing
only
water
byproduct.
With
an
content
equivalent
2.4
kg
methane
or
2.8
gasoline
per
kilogram,
boasts
superior
energy‐to‐weight
ratio
compared
fossil
fuels.
However,
energy‐to‐volume
ratio,
exemplified
by
liquid
hydrogen's
8.5
MJ.L
−1
versus
gasoline's
32.6
,
presents
challenge,
requiring
larger
volume
energy.
addition,
this
review
employs
life
cycle
assessment
(LCA)
evaluate
full
cycle,
including
production,
storage,
and
utilization.
Through
examination
LCA
methodologies
principles,
underscores
importance
in
measuring
environmental
sustainability
consumption.
Key
findings
reveal
diverse
pathways,
such
blue,
green,
purple
hydrogen,
offering
nuanced
understanding
their
inventories.
impact
is
explored,
supported
case
studies
illustrating
implications.
Comparative
analysis
across
different
pathways
provides
crucial
insights
decision‐making,
shaping
considerations.
Ultimately,
emphasizes
LCA's
pivotal
role
guiding
economy
toward
low‐carbon
future,
positioning
versatile
carrier
significant
potential.
This
article
categorized
under:
Emerging
Technologies
>
Hydrogen
Fuel
Cells
Energy & Fuels,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Aug. 31, 2024
The
continuous
use
of
fossil
energy
will
lead
to
a
severe
crisis.
Hydrogen
is
potential
alternative
due
its
renewability,
high
density,
and
low
emissions.
However,
hydrogen
faces
huge
challenge
in
terms
storage.
Biomass-based
porous
carbon
(BBPC)
has
attracted
much
attention
owing
advantages
wide
sources
excellent
pore
structure
with
manufacturing
costs.
This
review
focuses
on
recent
advances
the
application
BBPC
storage,
particularly
performance
enhancement
methods.
Based
analysis
storage
mechanisms
materials,
preparation
methods
for
years
have
been
systematically
reviewed.
strategies
improve
materials
are
discussed
detail,
including
heteroatom
doping,
metal
atomic
modification,
multicomponent
composite
design.
Finally,
challenges
future
development
applications
summarized.
