Journal of Composites Science,
Journal Year:
2023,
Volume and Issue:
7(12), P. 488 - 488
Published: Nov. 26, 2023
For
over
a
century,
enzyme
immobilisation
has
been
proven
to
be
superior
strategy
improve
catalytic
activity
and
reusability
ensure
easy
separation,
operation,
reduced
cost.
Enzyme
allows
for
an
easier
separation
of
the
from
reaction
mixture,
thus
simplifying
downstream
processing.
This
technology
protects
degradation
or
inactivation
by
harsh
conditions,
making
it
more
robust
suitable
used
in
various
applications.
Recent
strategies
methods,
such
as
adsorption,
cross-linking,
entrapment
encapsulation,
covalent
bonding,
were
critically
reviewed.
These
have
shown
promising
results
improving
stability,
activity,
A
recent
development
nanomaterials
agrowaste
renewable
carriers
is
underlined
current
review.
Furthermore,
use
gained
significant
attention
due
their
unique
properties,
high
surface
area,
mass
transfer,
biocompatibility,
sustainability.
materials
offer
outcomes
developing
efficient
sustainable
immobilised
enzymes.
state-of-the-art
better
control
reactions
enhances
reusability,
leading
cost-effective
environmentally
friendly
processes.
The
also
helps
reduce
waste
generation
promote
utilisation
resources,
further
contributing
circular
economy.
Pharmaceutics,
Journal Year:
2023,
Volume and Issue:
15(12), P. 2743 - 2743
Published: Dec. 7, 2023
Additive
manufacturing,
widely
known
as
3D
printing,
has
revolutionized
the
production
of
biomaterials.
While
conventional
3D-printed
structures
are
perceived
static,
4D
printing
introduces
ability
to
fabricate
materials
capable
self-transforming
their
configuration
or
function
over
time
in
response
external
stimuli
such
temperature,
light,
electric
field.
This
transformative
technology
garnered
significant
attention
field
biomedical
engineering
due
its
potential
address
limitations
associated
with
traditional
therapies.
Here,
we
delve
into
an
in-depth
review
4D-printing
systems,
exploring
diverse
applications
and
meticulously
evaluating
advantages
disadvantages.
We
emphasize
novelty
this
paper
by
highlighting
latest
advancements
emerging
trends
technology,
particularly
context
applications.
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.
TrAC Trends in Analytical Chemistry,
Journal Year:
2024,
Volume and Issue:
179, P. 117868 - 117868
Published: July 14, 2024
Biomolecules
play
critical
roles
in
all
core
functions
of
our
body
and
thus
are
useful
biomarkers
for
various
disease
states.
Electrochemical
sensing
approaches
have
been
widely
developed
monitoring
biomolecules.
In
recent
years,
three-dimensional
(3D)
printing.
Fused
Filament
Fabrication
(FFF)
has
emerged
as
a
approach
making
electrochemical
sensors
it
offers
precise
batch
production
at
low
cost.
This
review
intends
to
highlight
how
the
use
FFF
printing
provided
ability
develop
geometry
detection
important
biomolecules,
which
improved
interface
within
biological
environments.
achieved
through
unique
sensor
design,
modification
commercial
filaments
well
bespoke
in-house
filaments.
These
developments
showcased
large
promise
3D
development
sensors,
can
broaden
horizon
biomedical
analysis.
ChemCatChem,
Journal Year:
2024,
Volume and Issue:
unknown
Published: May 18, 2024
Abstract
Enzymatic
biocatalysis
typically
generates
less
waste,
uses
water,
and
minimizes
energy
consumption
compared
to
traditional
chemical
methods.
Efficient,
cell‐free
biosynthesis
relies
on
the
reuse
of
its
valuable
biocatalysts.
Immobilization
enzymes
solid
supports,
such
as
enzyme
carrier
resins
(ECRs),
offers
a
reliable
widely
deployed
approach
maximize
turnover
in
biosynthesis.
We
focus
two
major
bottlenecks
associated
with
optimizing
biocatalysis.
First,
we
apply
our
lab's
3D‐printed
labware
screen
ECRs
96‐well
mini‐reactors
optimize
immobilization
conditions.
Second,
introduce
inline
infrared
spectroscopy
monitor
bioreactor
output
productivity.
Urease
provides
model
system
for
examining
conditions
continuous
assessment
biocatalyst
performance.
As
required
high
substrate
concentrations
improve
process
efficiency
minimize
urease
was
studied
unusually
–
molar
urea.
The
optimized
reactor
processed
3.24
L
4.00
M
urea
at
an
average
volumetric
productivity
13
g
⋅
−1
h
over
18
achieved
estimated
number
>17.4
kg
per
immobilized
Type‐IX.
This
workflow
can
be
generalized
most
biocatalytic
processes
could
accelerate
adoption
greater
sustainability.
