International Journal of Molecular Sciences,
Journal Year:
2024,
Volume and Issue:
25(23), P. 12912 - 12912
Published: Nov. 30, 2024
Molecularly
imprinted
polymers
(MIPs)
are
defined
as
artificial
receptors
due
to
their
selectivity
and
specificity.
Their
advantageous
properties
compared
biological
alternatives
have
sparked
interest
among
scientists,
detailed
in
numerous
review
papers.
Currently,
there
is
significant
attention
on
adhering
the
principles
of
green
chemistry
environmental
protection.
In
this
context,
MIP
research
groups
focused
developing
eco-friendly
procedures.
The
application
"greener"
monomers
reagents,
along
with
utilization
computational
methodologies
for
design
property
analysis,
two
activities
that
align
molecularly
technology.
This
discusses
preparation
MIPs
based
non-acrylic/vinylic
precursors,
such
alkoxysilanes,
ionic
liquids,
deep
eutectic
solvents,
bio-based
molecules-specifically
saccharides,
biomolecules
like
proteins.
It
provides
a
brief
introduction
materials,
aspects
production,
simulations.
Following
this,
descriptions
studied
monomers,
molecular
simulation
studies
monomer-based
MIPs,
strategies
presented.
Finally,
conclusions
an
outlook
future
directions
analysis
production
materials
pointed
out.
To
best
my
knowledge,
work
first
combine
these
principles.
Deleted Journal,
Journal Year:
2025,
Volume and Issue:
2(1)
Published: Jan. 2, 2025
Abstract
The
field
of
chronic
wound
care
has
been
rapidly
evolving.
With
a
market
size
for
wounds
in
billions
USD,
this
is
not
an
insignificant
area
to
encourage
more
sustainable
practices
and
processes.
sourcing
starting
materials
dressings
from
renewable
resources
the
first
crucial
step
ensuring
that
environmental
impact
minimized.
Next
important
choice
select
methodologies
accordance
with
principles
green
chemistry.
This
involves
utilizing
solvents
as
reaction
media
chemical
processes
preparing
dressing
materials.
In
many
cases,
like
production
hydrogels,
crosslinking
reagents
are
often
employed.
These
can
be,
general,
easily
replaced
by
enzymes
peroxidases,
tyrosinases
sortases.
Process
intensification
strategies
have
emerged
powerful
approach
ensure
economy
sustainability
at
large
scale.
Use
microwave
radiations
ultrasonication
instead
heat
accelerate
rates
helps
cases
inject
wounds.
review
attempts
highlight
ongoing
efforts
future
possibilities
development
cost-effective
methods.
Graphical
Frontiers in Chemistry,
Journal Year:
2025,
Volume and Issue:
13
Published: Feb. 28, 2025
In
this
order
of
ideas,
Bariş
&
Kötekoğlu
(2024)
have
developed
an
organogelator,
which
is
a
molecule
that,
when
dissolving
in
organic
solvent,
forms
gel.
It
can
be
used
small
quantities
and
applications
cosmetics,
optics,
other
fields
(Zeng
et
al.,
2021).
The
compound
research
was
1(N1,N2-bis(2S,3S)-1-((4-(tert-butyl)benzyl)amino)-3-methyl-1-oxopentan-2yl)oxalamide),
are
biocompatible
with
high
penetration
capacity,
useful
as
transporters
topical
bioactive
molecules
great
stability.
Also,
to
determine
the
capacity
capture
gels
obtained,
non-steroidal
anti-inflammatories
(NSAIDS)
ibuprofen
naproxen
were
used,
safer
for
muscle
pains
application,
due
gastric
intolerance
that
both
drugs
produce
(Manoukian
2017).
Ultimately,
demonstrates
novel
organogel
carrier
system
medicines
medical
use.
Thus,
organogels
oleogels
promising
formulations
delivery
compounds
from
waste
agriculture
food
industry
(Souza
Pereira
2023).In
addition,
Ullah
anticarcinogenic
(Mottaghi
Abbaszadeh
This
functionalized
62
nanostructure
synthetized
using
fruit
Celtis
tournefortii
(endemic
tree
southwestern
63
slopes
Etna
Nebrodi
mountains)
obtain
composite
activated
carbon
named
CtAC.
64Later
CtAC
employed
synthesis
IONPs@CtAC
magnetic
nanocomposite
loaded
65
morin;
it
evaluated
cytotoxicity
against
HT-29
(colorectal),
T98-G
(glioblastoma)
cancer
66
cell
lines,
human
umbilical
vein
endothelial
(HUVEC)
healthy
line.
Journal of Fungi,
Journal Year:
2025,
Volume and Issue:
11(4), P. 326 - 326
Published: April 19, 2025
The
environmental
impact
and
resource
demands
of
traditional
leather
manufacturing
have
driven
the
search
for
sustainable
alternatives.
Fungal
mycelium
leather,
recognised
its
eco-friendly
renewable
characteristics,
has
emerged
as
a
promising
option.
This
study
established
cyclic
freeze-thaw
dehydration
protocol
preparing
mycelial
using
Ganoderma
produced
through
liquid
fermentation.
By
precisely
controlling
fermentation
parameters
(pH
5.5,
150
rpm
agitation,
28
°C),
process
ensures
uniform
growth,
which
is
critical
subsequent
structural
enhancement
during
cycles.
After
three
cycles
were
performed
at
−15
°C,
uniformly
distributed
ice
crystals
facilitated
effective
water
removal,
achieving
minimum
moisture
content
47.6%.
optimized
membranes
with
tensile
strength
6.22
MPa
elongation
break
18.92%,
demonstrating
high
mechanical
performance.
was
demonstrated
to
enhance
integrity
properties
while
offering
reduced
energy
consumption
compared
conventional
methods.
research
provides
theoretical
foundation
technical
guidance
optimising
fungal
production
contributes
development
bio-based
materials
industrial
applications.
Sustainability,
Journal Year:
2024,
Volume and Issue:
16(9), P. 3695 - 3695
Published: April 28, 2024
Agri-food
waste
represents
a
serious
problem
that
can
be
overcome
by
converting
it
into
added-value
material
for
the
production
of
plasters
green
building;
in
fact,
used
as
reinforcement
additive
building
industry.
In
this
study,
performance
gypsum-based
with
pistachio
shell
additives
was
evaluated.
Before
being
plasters,
shells
were
ground
at
three
different
grain
sizes
order
to
verify
how
size
influences
material.
Tests
then
carried
out
on
all
produced
mortars
evaluate
their
chemical
and
physical
characteristics,
interesting
results
regarding
mechanical
resistance
some
materials
obtained.
The
showed
addition
improved
cases
best
water
absorption
capillarity
achieved
0.5–2
mm
size,
while
thermal
conductivity
2–4
size.
Summarizing,
obtained
granulometry
mm,
sand,
water/gypsum
ratio
0.86–0.74.
