Igra ustvarjalnosti - Creativity Game,
Journal Year:
2023,
Volume and Issue:
2023(11), P. 40 - 47
Published: Dec. 5, 2023
The
article
presents
the
redefinition
of
continuity
and
visibility
elements
building
identity
in
recent
buildings,
context
architectural
regions
landscapes
defined
by
Prof.
Peter
Fister
1990s.
mass
»self-build«
interventions
1980s
led
to
a
break
transfer
traditional
built
heritage
new
buildings
-
both
at
level
individual
settlement.
describes
process
discovering
and,
with
help
modern
software
tools,
evaluating
those
examples
construction
where,
despite
influence
various
trends,
it
was
possible
identify
preservation
elements.
research
settlement
single
carried
out
area
Prebold
Savinjsko-kozjanska
region,
while
study
included
good
practice
from
whole
territory
Slovenia.
At
same
time,
Fister’s
»inventory
cards«
were
upgraded
terms
content,
which
now
more
systematically
define
position
within
its
volumetric
planar
visual
elements,
are
carriers
identity.
Gels,
Journal Year:
2025,
Volume and Issue:
11(1), P. 30 - 30
Published: Jan. 2, 2025
This
review
summarizes
the
fundamental
concepts,
recent
advancements,
and
emerging
trends
in
field
of
stimuli-responsive
hydrogels.
While
numerous
reviews
exist
on
this
topic,
continues
to
evolve
dynamically,
certain
research
directions
are
often
overlooked.
To
address
this,
we
classify
hydrogels
based
their
response
mechanisms
provide
an
in-depth
discussion
key
properties
mechanisms,
including
swelling
kinetics,
mechanical
properties,
biocompatibility/biodegradability.
We
then
explore
hydrogel
design,
synthesis,
structural
engineering,
followed
by
overview
applications
that
relatively
well
established
from
a
scientific
perspective,
biomedical
uses
(biosensing,
drug
delivery,
wound
healing,
tissue
engineering),
environmental
(heavy
metal
phosphate
removal
environment
polluted
water),
soft
robotics
actuation.
Additionally,
highlight
unconventional
such
as
local
micro-thermometers
cell
mechanotransduction.
concludes
with
current
challenges
future
prospects
field,
aiming
inspire
further
innovations
advancements
bring
them
closer
societal
needs.
International Journal of Biological Macromolecules,
Journal Year:
2025,
Volume and Issue:
unknown, P. 142476 - 142476
Published: March 1, 2025
This
study
explores
the
development
and
characterization
of
copper-based
hydrogels
synthesized
using
an
electrodeposition
method.
Alginate
chitosan
were
used
as
natural
polymers,
each
with
distinct
structural
functional
characteristics.
The
conditions,
such
current
density
deposition
time,
systematically
varied
to
investigate
their
effects
on
hydrogel
morphology,
cross-link
mesh
size.
results
showed
that
alginate-based
form
more
extensive
networks
copper
ions
through
interactions
carboxylate
groups,
resulting
in
a
higher
density,
whereas
chitosan-based
open
structure.
addition
polyvinyl
alcohol
(PVA)
was
found
modulate
mechanical
properties
increase
network's
flexibility,
expanding
potential
applications
these
hydrogels.
Effective
diffusion
studies
model
molecules
highlighted
significant
influence
size
permeability,
demonstrating
hydrogels'
suitability
for
requiring
precise
control
over
molecular
transport.
A
DoE
(Design
Experiments)
approach
further
enabled
systematic
optimization
parameters,
ensuring
reproducibility
scalability
achieving
desired
industrial
biomedical
applications.
Frontiers in Chemical Engineering,
Journal Year:
2024,
Volume and Issue:
6
Published: July 16, 2024
This
work
explores
the
innovative
use
of
copper-alginate
(Cu-alginate)
hydrogels
within
microfluidic
systems
to
catalyze
dipolar
cycloaddition
reactions,
emphasizing
green
chemistry
principles
and
process
intensification.
Utilizing
naturally
occurring
biopolymers,
such
as
alginates,
provides
an
environmentally
friendly
alternative
conventional
catalyst
supports
due
their
biocompatibility,
biodegradability,
effective
metal
ion
immobilization
capabilities.
The
integration
these
biopolymer-based
catalysts
into
devices
allows
for
precise
control
over
reaction
conditions,
leading
enhanced
kinetics
mass
transfer
efficiencies.
Our
results
demonstrate
that
Cu-alginate
effectively
formation
1,4-disubstituted
1,2,3-triazoles
through
[3
+
2]
reactions
with
high
regioselectivity
conversion.
setup
ensures
rapid
efficient
synthesis,
surpassing
traditional
batch
methods
in
both
rate
environmental
impact
by
reducing
solvent
usage
waste
generation.
Furthermore,
microfluidics
contributes
reproducibility
scalability
synthesis
process,
important
industrial
applications.
model-based
design
its
simulations
have
been
employed
further
understand
optimize
system.
Diffusion
gel
layer
catalytic
estimated
from
experimental
data
were
included
model,
providing
a
theoretical
foundation
comprehensive
evaluation.
study
not
only
advances
field
sustainable
catalysis
demonstrating
practical
utility
biopolymer-supported
systems,
but
also
sets
stage
research
biopolymer
applications
complex
chemical
syntheses.
Molecules,
Journal Year:
2024,
Volume and Issue:
29(22), P. 5296 - 5296
Published: Nov. 9, 2024
The
rapid,
efficient,
and
thorough
degradation
of
Bisphenol
A
(BPA)
is
challenging.
In
this
study,
we
prepared
an
effective
peroxymonosulphate
(PMS)
activation
catalyst
derived
from
sawdust
containing
calcium
carbonate.
Co
Cu
co-doped
biochar
(CoO/CuO@CBC)
could
activate
PMS
quickly,
the
rate
BPA
reached
99.3%
in
5
min,
while
constant
was
approximately
30
times
higher
than
CBC/PMS
CoCuO
