Bibliometric Analysis of Global Publications on Management, Trends, Energy, and the Innovation Impact of Green Hydrogen Production
Sustainability,
Journal Year:
2024,
Volume and Issue:
16(24), P. 11048 - 11048
Published: Dec. 17, 2024
The
aim
of
this
bibliometric
analysis
was
to
evaluate
the
evolution
scientific
research
in
hydrogen,
focusing
on
green
hydrogen
production,
storage,
and
utilization.
Articles
from
prominent
databases
were
analyzed,
revealing
a
strong
emphasis
sustainable
technologies
through
keywords
like
“hydrogen
production”,
“green
hydrogen”,
“solar
power
generation”.
Mature
areas
include
production
methods
electrolysis,
while
emerging
topics
such
as
energy
efficiency
policy
are
gaining
traction.
most-cited
papers,
Energy
Conversion
Management
International
Journal
Hydrogen
Energy,
cover
techno-economic
assessments
case
studies
deploying
technologies.
Key
findings
highlight
variability
Levelized
Cost
(LCOH)
across
regions.
Deep
learning
applications,
including
Fast
Fourier
Transform-based
forecasting
explainable
AI
models,
transforming
optimization,
Life
Cycle
Assessment
(LCA)
emphasizes
renewable
energy’s
role
reducing
carbon
intensity
resource
consumption.
Diverse
strategies,
fiscal
incentives
for
wind
use
urban
waste,
underline
importance
local
solutions.
This
reflects
rapid
growth
research,
driven
by
international
collaboration
innovations
optimization.
It
is
hoped
that
paper
will
help
shed
more
light
current
future
understanding
hydrogen.
Language: Английский
Research hotspots and trends in the application of electroencephalography for assessment of disorders of consciousness: a bibliometric analysis
Frontiers in Neurology,
Journal Year:
2025,
Volume and Issue:
15
Published: Jan. 27, 2025
Objective
Disorders
of
consciousness
(DoC)
result
from
severe
traumatic
brain
injury
and
hypoxia
or
ischemia
tissues,
leading
to
impaired
perceptual
abilities.
Electroencephalography
(EEG)
is
a
non-invasive
widely
applicable
technology
used
for
assessing
DoC.
We
aimed
identify
the
research
hotspots
in
this
field
through
systematic
analysis.
Methods
Relevant
studies
published
January
1,
2004
December
31,
2023
were
retrieved
Web
Science
Core
Collection
database.
The
data
analyzed
visualized
using
CiteSpace,
VOSviewer,
SCImago
Graphica.
Results
In
total,
1,639
relevant
publications
retrieved.
country
with
highest
number
was
United
States,
most
productive
institution
Harvard
University,
journal
output
Clinical
Neurophysiology
,
total
citations
Neurology
.
author
Steven
Laureys
common
keyword
“vegetative
state.”
Conclusion
undergoing
rapid
development,
characterized
by
proliferation
advanced
technologies
an
increased
emphasis
on
international
collaboration.
document
offers
impartial
perspective
advancements
study
benefit
researchers.
Language: Английский
Role of Ischemia/Reperfusion and Oxidative Stress in Shock State
Cells,
Journal Year:
2025,
Volume and Issue:
14(11), P. 808 - 808
Published: May 30, 2025
Shock
is
a
life-threatening
condition
characterized
by
inadequate
tissue
perfusion
leading
to
systemic
hypoxia
and
metabolic
failure.
Ischemia/reperfusion
(I/R)
injury
exacerbates
shock
progression
through
oxidative
stress
immune
dysregulation,
contributing
multi-organ
dysfunction.
This
narrative
review
synthesizes
current
evidence
on
the
interplay
between
I/R
injury,
stress,
modulation
in
states.
We
analyze
classification
of
shock,
its
progression,
molecular
pathways
involved
ischemic
adaptation,
inflammatory
responses,
injury.
pathophysiology
driven
ischemia,
triggering
adaptive
responses
such
as
hypoxia-inducible
factor
(HIF)
signaling
reprogramming.
However,
prolonged
leads
mitochondrial
dysfunction,
increased
reactive
oxygen
species
(ROS)
nitrogen
(RNS)
production,
activation.
The
transition
from
response
syndrome
(SIRS)
compensatory
anti-inflammatory
(CARS)
contributes
imbalance,
further
aggravating
damage.
Dysregulated
checkpoint
pathways,
including
CTLA-4
PD-1,
fail
suppress
excessive
inflammation,
exacerbating
exhaustion.
intricate
relationship
ischemia/reperfusion
dysregulation
states
highlights
potential
therapeutic
targets.
Strategies
aimed
at
modulating
redox
homeostasis,
controlling
mitigating
damage
may
improve
patient
outcomes.
Future
research
should
focus
novel
interventions
that
restore
balance
while
preventing
Language: Английский