MACRAMÉ – Advanced Characterisation Methodologies to assess and predict the Health and Environmental Risks of Advanced Materials
Computational and Structural Biotechnology Journal,
Год журнала:
2025,
Номер
unknown
Опубликована: Март 1, 2025
Ensuring
the
safety
and
sustainability
of
advanced
materials
(AdMas)
is
critical
for
fostering
innovation
while
protecting
human
health
environment.
As
industries
integrate
AdMas
into
commercial
products
to
innovate
in
next
stage
value
chains,
there
an
urgent
need
robust
methodologies
detect,
characterize,
assess
their
potential
risks
throughout
life
cycle.
The
MACRAMÉ
Project
addresses
this
challenge
by
advancing
standardized
testing
regulatory
frameworks,
supporting
EU's
vision
a
toxic-free
Through
cutting-edge
research
international
collaboration,
lays
groundwork
reliable
hazard
assessment,
compliance,
responsible
development
next-generation
materials.
aims
enhance
detection,
characterization,
quantification
Advanced
Materials
cycle,
assessing
environmental
impacts
during
exposure.
By
developing,
demonstrating,
standardizing
methodologies,
ensures
broad
applicability
across
market-relevant
AdMas-containing
products.
Fully
aligned
with
EU
strategies
such
as
Chemical
Strategy
Sustainability
European
Green
Deal,
project
extends
nanosafety
approaches
broader
category,
focusing
on
inhalable
carbon-based
-
graphene-related
materials,
carbon
nanofibers,
poly
lactic-co-glycolic
acid
nanoparticles.
Building
over
15
years
research,
integrates
knowledge
from
major
initiatives
establish
harmonized
test
guidelines,
guidance
documents,
standards.
five
industrial
Use-Cases,
applies
innovative
sample
preparation,
toxicity
assessment
techniques
develop
tiered
approach
AdMa
testing.
Centralized
Information
Hub,
all
data
will
support
frameworks
future
research.
project's
outcomes
harmonization
pre-standardization
proposals
contribute
unified
framework,
reinforcing
continent's
leadership
safe
sustainable
innovation.
Язык: Английский
Going Digital to Boost Safe and Sustainable Materials Innovation Markets. The Digital Safe-and-Sustainability-by-Design Innovation Approach of the PINK Project
Computational and Structural Biotechnology Journal,
Год журнала:
2025,
Номер
unknown
Опубликована: Март 1, 2025
In
this
innovation
report,
we
present
the
vision
of
PINK
project
to
foster
Safe-and-Sustainable-by-Design
(SSbD)
advanced
materials
and
chemicals
(AdMas&Chems)
development
by
integrating
state-of-the-art
computational
modelling,
simulation
tools
data
resources.
proposes
a
novel
approach
for
use
SSbD
Framework,
whose
innovative
is
based
on
application
multi-objective
optimisation
procedure
criteria
functionality,
safety,
sustainability
cost
efficiency.
At
core
open
platform,
distributed
system
that
integrates
all
relevant
modelling
resources
enriched
with
visualisation
an
AI-driven
decision
support
system.
Data
from
the,
in
large
parts,
independently
developed
areas
functional
design,
safety
assessment,
life
cycle
assessment
&
costing
are
brought
together
newly
created
Interoperability
Framework.
The
Silico
Hub,
as
user
Interface
finally
guides
through
complete
AdMas&Chems
process
idea
creation
market
introduction.
Guided
two
Developmental
Case
Studies,
building
Platform
iterative,
ensuring
industry
readiness
implement
apply
it.
Additionally,
Industrial
Demonstrator
programme
will
be
introduced
part
final
phase,
which
allows
partners
especially
small
medium
enterprises
(SMEs)
become
consortium.
Feedback
Demonstrators
well
other
stakeholder-engagement
activities
collaborations
shape
platform's
look
feel
and,
even
more
important,
assure
long-term
technical
sustainability.
Язык: Английский