The InteRnatIonal ecosystem for accelerating the transition to Safe-and-Sustainable-by-design materials, products and processes

Projekt: Forschung

Projektbeteiligte

  • IVL Swedish Environmental Research Institute
  • IKEM – Innovations- och kemiindustrierna i Sverige
  • Ethnicon Metsovion Polytechnion

Beschreibung

The IRISS project aims to connect, synergize and transform the SSbD community in Europe and globally towards a life cycle thinking where there is a holistic integration of safety, climate neutrality, circularity and functionality of materials, products and processes throughout their lifecycle to meet the EU Green Deal, EU Chemicals Strategy for Sustainability, and UN SDGs. The uniqueness of IRISS is that the consortium is built of core and network partners that represent the top components needed to build an EU-led permanent network (i.e. policy, industry, applied science, innovation and research & education), and that is self-sustaining and international in scope.
IRISS responds to the work programme with the following objectives: 1. To develop a state-of-the-art SSbD ecosystem that is supportive for the uptake and utilization of safe-by-design (SbD) and sustainable-by-design (SusbD) strategies by industry, especially SMEs. 2.
To contribute to criteria and guiding principles for SusbD development driven by the application of life cycle thinking in materials and product design and in line with ongoing work in European and international initiatives. 3. To establish a structure for a permanent, gender balanced, inclusive, international and sustainable experts? network accessible for all relevant stakeholders. 4. To develop SSbD roadmaps encompassing 3 agendas identifying: 1) scientific research needs, 2) skills, competences and education needs, and 3) knowledge and information sharing needs. The roadmaps will be developed in a co-creation and inclusive process for the implementation of SSbD in
industry and society including prioritised steps within research, innovation, skill demands, management and governance. 5. To develop a monitoring and evaluation programme that systematically scans for state-of-the-art knowledge, information gaps and translates these into specific R&D questions and governance needs that feed into systematic roadmap updates.
AkronymIRISS
StatusAbgeschlossen
Zeitraum01.06.2231.05.25

Zuletzt angesehen

Publikationen

  1. Short run comovement, persistent shocks and the business cycle
  2. Das John-Stuart-Mill-Problem
  3. A matrix of evaluation and comparsion of Case-Based Reasoning (CBR) software tools to facilitate understanding and appreciation
  4. Vergütung, variable
  5. Augmented space
  6. Ob lang oder kurz, berührbar oder nicht: Ist die Längenschätzkompetenz eindimensional?
  7. Same but different? Measurement invariance of the PIAAC motivation-to-learn scale across key socio-demographic groups
  8. Using density surface models to assess the ecological effectiveness of a protected area network in Tanzania
  9. Paired case research design and mixed-methods approach
  10. How data on transformation products can support the redesign of sulfonamides towards better biodegradability in the environment
  11. Introduction
  12. Active suspensions decoupling by algebraic feedback
  13. Embedded, not plugged-in
  14. Current and New Research Perspectives on Dynamic Facial Emotion Detection in Emotional Interface
  15. Visions of Process—Swarm Intelligence and Swarm Robotics in Architectural Design and Construction
  16. Assuring a safe, secure and sustainable space environment for space activities
  17. Germany Humboldt University in Berlin: Its Transformation in the Process of German Unification
  18. Water quantity and quality in the Zerafshan river basin - only an upstream riparian problem?
  19. The Effect of Solid Solute and Precipitate Phase on Young's Modulus of Binary Mg–RE Alloys
  20. Effect of laser peening process parameters and sequences on residual stress profiles
  21. Methodology for Integrating Biomimetic Beams in Abstracted Topology Optimization Results
  22. Brain Drain
  23. Way out of the Supply Crises through Risk Minimization - Metrological Comparison of two Polypropylene Materials and Examination with Six Sigma Methods