Abstract
Biomass-based
hydrogen
production
is
an
innovative
approach
for
realizing
carbon-neutral
energy
solutions.
Despite
their
promise,
both
structures
differ
in
terms
of
the
biomass
domain,
which
at
entry
point
technology,
and
exit
technology.
In
this
study,
we
conducted
structural
predictive
analyses
via
cross-domain
bibliometric
analysis
to
clarify
differences
perspectives
researchers
across
domains
suggest
ways
strengthen
collaboration
promote
innovation.
Our
study
revealed
that
domain
has
a
balanced
impact
on
society
using
biomass-based
while
strong
interest
process
processing
biomass.
The
results
reveal
different
communities
have
ideas
about
research,
resulting
divide
areas
be
achieved.
This
comparative
reveals
importance
synergistic
progress
through
interdisciplinary
efforts.
By
filling
these
gaps,
our
findings
can
lead
development
roadmap
future
research
policy
renewable
highlight
unified
sustainable
production.
contribution
provide
evidence
cross-disciplinary
cooperation
R&D
directors
makers.
ACS Omega,
Год журнала:
2025,
Номер
10(1), С. 1207 - 1225
Опубликована: Янв. 3, 2025
Manufacturing
bioactive
materials
for
drug
delivery
involves
developing
that
interact
with
biological
tissues
to
release
drugs
in
a
controlled
and
targeted
manner.
The
goal
is
optimize
therapeutic
efficacy
reduce
side
effects
by
combining
knowledge
from
engineering,
biology,
pharmacology.
This
study
presents
detailed
bibliometric
analysis,
exploring
the
keywords
"manufacturing,"
"bioactive
materials,"
"drug
delivery"
identify
highlight
significant
advancements
field.
From
Web
of
Science,
36,504
articles
were
analyzed,
171
selected
deeper
identifying
key
journals,
countries,
institutions,
authors.
results
field's
interdisciplinary
nature,
grouped
into
four
main
themes,
including
regenerative
medicine,
scaffolds,
three-dimensional
(3D)
printing,
glass,
tissue
engineering.
Future
research
this
area
will
focus
on
more
effective
precise
systems
using
technologies
like
3D
printing
nanotechnology
enhance
customization
control
release,
aiming
efficient
therapies.
ACS Biomaterials Science & Engineering,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 17, 2025
This
study
provides
a
bibliometric
and
bibliographic
review
of
emerging
applications
micro-
nanotechnology
in
treating
ocular
diseases,
with
primary
focus
on
glaucoma.
We
aim
to
identify
key
research
trends
analyze
advancements
devices
drug
delivery
systems
for
treatments.
The
methodology
involved
analyzing
385
documents
indexed
the
Web
Science
using
tools
such
as
VOSviewer
Bibliometrix.
results
show
marked
increase
scientific
output,
highlighting
prominent
authors
institutions,
England
leading
field.
Key
findings
suggest
that
holds
potential
address
limitations
conventional
treatments,
including
low
bioavailability
adverse
side
effects.
Nanoparticles,
nanovesicles,
polymer-based
appear
promising
prolonged
controlled
release,
potentially
offering
enhanced
therapeutic
efficacy.
In
conclusion,
could
transform
disease
treatment,
although
challenges
remain
concerning
biocompatibility
scalability
these
devices.
Further
clinical
studies
are
necessary
establish
innovations
within
context
ophthalmology.
Energies,
Год журнала:
2024,
Номер
17(16), С. 3992 - 3992
Опубликована: Авг. 12, 2024
This
paper
navigates
the
critical
role
of
hydrogen
in
catalyzing
a
sustainable
energy
transformation.
review
delves
into
production
methodologies,
spotlighting
green
and
blue
as
pivotal
for
future
systems
because
their
potential
to
significantly
reduce
greenhouse
gas
emissions.
Through
comprehensive
literature
bibliometric
analysis,
this
study
underscores
importance
technological
advancements,
policy
support,
market
incentives
promoting
key
vector.
It
also
explores
necessity
expanding
renewable
sources
international
cooperation
secure
sustainable,
low-carbon
future.
The
analysis
highlights
scalable
cost-effective
methods,
such
solar-thermochemical
photo-electrochemical
processes,
addresses
challenges
posed
by
resource
availability
geopolitical
factors
establishing
economy.
serves
guide
innovation
toward
achieving
global
sustainability
goals,
illustrating
essential
transition.
ACS Omega,
Год журнала:
2024,
Номер
9(47), С. 46698 - 46732
Опубликована: Ноя. 14, 2024
Immobilization
of
lipases
by
physical
adsorption
improves
their
stability,
recovery,
and
reusability
in
biotechnological
processes.
The
present
review
provides
an
advanced
bibliometric
analysis
a
comprehensive
overview
research
progress
this
field.
By
searching
Web
Science,
39,575
publications
were
analyzed,
325
relevant
articles
selected.
Key
journals,
countries,
institutions,
authors
identified.
most
cited
focus
on
biofuel
production
industrial
applications.
revealed
four
themes
with
the
biofuel.
method
is
effective
when
appropriate
support
used.
Despite
decrease
patent
applications,
interest
remains
high.
Future
studies
should
optimizing
materials
exploring
new
applications
technique.
detailed
understanding
immobilization
adsorption.
Energies,
Год журнала:
2024,
Номер
17(17), С. 4514 - 4514
Опубликована: Сен. 9, 2024
The
use
of
green
hydrogen
as
a
high-energy
fuel
the
future
may
be
an
opportunity
to
balance
unstable
energy
system,
which
still
relies
on
renewable
sources.
This
work
is
comprehensive
review
recent
advancements
in
production.
outlines
current
consumption
trends.
It
presents
tasks
and
challenges
economy
towards
hydrogen,
including
production,
purification,
transportation,
storage,
conversion
into
electricity.
main
types
water
electrolyzers:
alkaline
electrolyzers,
proton
exchange
membrane
solid
oxide
anion
electrolyzers.
Despite
higher
production
costs
compared
grey
this
suggests
that
technologies
become
cheaper
more
efficient,
cost
expected
decrease.
highlights
need
for
cost-effective
efficient
electrode
materials
large-scale
applications.
concludes
by
comparing
operating
parameters
considerations
different
electrolyzer
technologies.
sets
targets
2050
improve
efficiency,
durability,
scalability
underscores
importance
ongoing
research
development
address
limitations
technology
make
competitive
with
fossil
fuels.
Biomass,
Год журнала:
2024,
Номер
4(3), С. 625 - 646
Опубликована: Июль 1, 2024
Elephant
grass
(EG),
or
Pennisetum
purpureum,
is
gaining
attention
as
a
robust
renewable
biomass
source
for
energy
production
amidst
growing
global
demands
and
the
push
alternatives
to
fossil
fuels.
This
review
paper
explores
status
of
EG
sustainable
bioenergy
resource,
integrating
various
studies
present
comprehensive
analysis
its
potential
in
markets.
Methods
employed
include
assessing
efficiency
yield
conversion
methods
such
pretreatment
bioethanol
production,
biomethane
yields,
direct
combustion,
pyrolysis.
The
also
encompasses
technoeconomic
evaluation
economic
viability
scalability
using
along
with
an
examination
environmental
impacts,
focusing
on
water
carbon
footprint.
Results
demonstrate
that
has
considerable
practices
due
high
ecological
benefits
sequestration.
Despite
challenges
cost
competitiveness
traditional
sources,
specific
applications
like
small-scale
combined
heat
power
(CHP)
systems
charcoal
show
promise.
Conclusively,
presents
viable
option
energy,
potentially
playing
pivotal
role
sector
landscape
shifts
towards
more
solutions;
although,
technological
barriers
need
further
addressing.
Processes,
Год журнала:
2024,
Номер
12(11), С. 2434 - 2434
Опубликована: Ноя. 4, 2024
For
centuries,
fossil
fuels
have
been
the
primary
energy
source,
but
their
unchecked
use
has
led
to
significant
environmental
and
economic
challenges
that
now
shape
global
landscape.
The
combustion
of
these
releases
greenhouse
gases,
which
are
critical
contributors
acceleration
climate
change,
resulting
in
severe
consequences
for
both
environment
human
health.
Therefore,
this
article
examines
potential
hydrogen
as
a
sustainable
alternative
source
capable
mitigating
impacts.
It
explores
properties
hydrogen,
with
particular
emphasis
on
its
application
industrial
burners
furnaces,
underscoring
clean
high
density
comparison
fuels,
also
production
through
thermochemical
electrochemical
methods,
covering
green,
gray,
blue,
turquoise
pathways.
discusses
storage
transportation
challenges,
highlighting
methods
like
compression,
liquefaction,
chemical
carriers
(e.g.,
ammonia),
transport
via
pipelines
vehicles.
Hydrogen
mechanisms
optimized
burner
furnace
designs
explored,
along
benefits
lower
emissions,
contrasted
concerns
infrastructure
costs.
Additionally,
applications,
safety
concerns,
large-scale
adoption
addressed,
presenting
promising
yet
complex
fuels.
