ACS Omega,
Journal Year:
2024,
Volume and Issue:
9(47), P. 46698 - 46732
Published: Nov. 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.
International Journal on Advanced Science Engineering and Information Technology,
Journal Year:
2024,
Volume and Issue:
14(1), P. 268 - 286
Published: Feb. 24, 2024
Biomass,
noted
for
its
adaptability,
has
various
applications
in
biofuel
generation,
industrial
use,
and
environmental
cleaning.
This
study
looks
into
the
multiple
roles
of
biomass
as
a
renewable
energy
source,
with
particular
emphasis
on
vital
contribution
to
production.
Through
thorough
evaluation
different
conversion
routes—thermal,
biological,
physical—the
emphasizes
thermochemical
processes'
efficiency,
cost-effectiveness,
adaptability.
Notably,
technologies
like
gasification
quick
pyrolysis
are
thoroughly
investigated,
followed
by
in-depth
discussions
reactor
optimization
strategies
enhance
performance
output.
The
complex
structure
biomass,
which
is
dominated
high-molecular-weight
polysaccharides
such
cellulose
hemicelluloses,
demonstrates
significant
potential
generation.
Furthermore,
categorizes
content,
origin,
processes,
resulting
comprehensive
inventory
available
resources.
Biomass
from
agriculture
forestry
industries,
starch,
sugar,
lignocellulose,
organic
wastes,
rigorously
analyzed
processing
techniques,
including
thermochemical,
biochemical,
physicochemical
conversions,
carefully
tested
real-world
ensure
their
efficacy
viability.
Beyond
importance
production,
article
underlines
biomass'
versatility
satisfying
needs
contributing
cleanup
initiatives.
lays
groundwork
informed
decision-making
innovative
solutions
industries
providing
understanding
biomass's
benefits
applications,
provision,
ecological
restoration.
Environmental Science and Pollution Research,
Journal Year:
2024,
Volume and Issue:
unknown
Published: March 12, 2024
Herein,
we
explore
the
holistic
integration
of
magnetite-based
photocatalysts
and
techno-economic
analysis
(TEA)
as
a
sustainable
approach
in
wastewater
treatment
aligned
with
Sustainable
Development
Goals
(SDGs).
While
considerable
attention
has
been
devoted
to
photocatalytic
dye
degradation,
nexus
between
these
processes
considerations
remains
relatively
unexplored.
The
review
comprehensively
examines
fundamental
characteristics
photocatalysts,
encompassing
synthesis
methods,
composition,
unique
properties.
It
investigates
their
efficacy
addressing
homogeneous
heterogeneous
aspects
while
discussing
strategies
optimize
photodegradation
efficiency,
including
curbing
electron-hole
recombination
mitigating
scavenging
effects
interference
by
ions
humic
acid.
Moreover,
management
are
examined,
focusing
on
reusability
regeneration
post-dye
removal,
along
potential
for
reusing
treated
relevant
industrial
applications.
From
perspective,
study
evaluates
financial
feasibility
deploying
treatment,
correlating
reduced
pollution
marketing
water
social,
economic,
environmental
objectives.
By
advocating
TEA,
this
paper
contributes
insights
into
scalable
profitable
practices.
underscores
alignment
practices
SDGs,
emphasizing
comprehensive
managing
ways
that
meet
environmental,
societal
Energy Technology,
Journal Year:
2024,
Volume and Issue:
12(4)
Published: Jan. 9, 2024
Hydrogen
plays
an
essential
role
in
the
energy‐transition
process.
Even
though
currently
almost
80–96%
of
hydrogen
is
produced
from
fossil
fuel
sources
world,
exciting
feature
that
it
can
be
renewable
by
splitting
water
molecules
through
electrolyzing,
and
then
re‐electrified
without
any
emissions
by‐products.
secondary
source
energy
as
well
carrier
stores
transports
other
such
water,
biomass,
fuels.
It
a
clean‐burning
fuel;
when
oxidized
cell,
produces
heat,
electricity,
vapor
by‐product,
carbon
emissions.
Despite
these
characteristics
hydrogen,
there
are
still
variety
challenges,
cost‐effective
production
its
technological
storage,
safety,
transportation,
cost
issues.
This
article
aims
to
overview
challenges
opportunities
production,
transportation
along
with
some
future
perspectives
on
hydrogen.
Environmental Chemistry Letters,
Journal Year:
2023,
Volume and Issue:
22(2), P. 609 - 634
Published: Dec. 1, 2023
Abstract
Liquid
biofuels
like
biodiesel
and
bioethanol
are
crucial
in
the
transition
to
low-carbon
high-energy
alternatives
fossil
fuels.
One
significant
by-product
of
production
is
glycerol,
which
accounts
for
about
10%
total
conversion
output.
While
waste
glycerol
poses
challenges
due
its
impurities
contaminants,
it
also
holds
potential
as
a
metabolic
resource
essential
cellular
components
microorganisms.
Crude
reviewed,
highlighting
relevance
current
technologies
biochemical
composition.
To
efficiently
utilize
co-valorization
with
low-cost
substrates
through
biocircular
platforms
using
various
microorganisms
or
insects
second
third-generation
oxy-biofuels
has
been
explored.
Among
these,
black
soldier
fly
larvae
have
demonstrated
higher
competitiveness
lipid
contents
(35–43%),
making
them
promising
organism
recycling
into
production,
alongside
microalgae
oleaginous
yeast.
The
microbial
productivity
from
yeast
notably
(3546
kg
ha
−1
y
)
than
soybean
(562
),
while
microalgal
surpasses
palm
by
more
25
times.
Remarkably,
was
reported
be
~
1.7
times
an
impressive
43
biodiesel.
Despite
their
industry
still
represents
challenge
because
high
impurities,
viscosity,
limited
direct
applications
existing
processes.
further
enhance
energy
sustainability
address
discussed
utilization
domestic
wastewater
sludge,
lignocellulosic
biomass,
protein-rich
wastes.
These
offer
opportunities
create
other
sustainable
agricultural
products
minimizing
environmental
footprint.
Environmental Chemistry Letters,
Journal Year:
2024,
Volume and Issue:
22(5), P. 2405 - 2424
Published: June 11, 2024
Abstract
Pollution
and
the
rising
energy
demand
are
two
major
society
issues,
requiring
urgent
solutions.
Here,
we
review
simultaneous
production
of
hydrogen
removal
pollutants,
with
a
focus
on
mechanisms,
synthesis
photocatalysts,
applications.
Remarkably,
this
method
utilizes
organic
pollutants
as
sacrificial
agents
for
photocatalytic
production,
thus
both
reducing
pollution
producing
energy.
Metal-doped,
cocatalyst-loaded,
inorganic
composite,
heterostructure
heterojunction
photocatalysts
described.
We
present
applications
to
antibiotics
dyes.
Pollutant
degradation
rates
range
from
5.3
100%,
evolution
13.7–2724.89
μmol·g
–1
h
.
Environmental Chemistry Letters,
Journal Year:
2024,
Volume and Issue:
22(4), P. 1703 - 1740
Published: May 16, 2024
Abstract
Hydrogen
is
viewed
as
the
future
carbon–neutral
fuel,
yet
hydrogen
storage
a
key
issue
for
developing
economy
because
current
techniques
are
expensive
and
potentially
unsafe
due
to
pressures
reaching
up
700
bar.
As
consequence,
research
has
recently
designed
advanced
sorbents,
such
metal–organic
frameworks,
covalent
organic
porous
carbon-based
adsorbents,
zeolite,
composites,
safer
storage.
Here,
we
review
with
focus
on
sources
production,
machine
learning.
Carbon-based
sorbents
include
graphene,
fullerene,
carbon
nanotubes
activated
carbon.
We
observed
that
capacities
reach
10
wt.%
6
3–5
adsorbents.
High-entropy
alloys
composites
exhibit
improved
stability
uptake.
Machine
learning
allowed
predicting
efficient
materials.
