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Sustainability in Materials Research in the EU: From FP7 to Horizon 2020

Published online by Cambridge University Press:  27 February 2013

Renzo Tomellini  and
Johan Veiga Benesch
Renzo Tomellini
Affiliation:
DG Research & Innovation, European Commission, 1049 Brussels, Belgium.
Johan Veiga Benesch
Affiliation:
DG Research & Innovation, European Commission, 1049 Brussels, Belgium.
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Abstract

Environmental issues steadily receive more and more attention at EU policy level. This can for example be seen in the Raw Materials Initiative by DG Enterprise and Resource Efficient Europe by DG Environment which goes back to the theme of a sustainable economy as expressed by the Europe 2020 growth strategy. DG Research and Innovation supports related research activities. The Nanotechnology, Materials & Production (NMP) Theme in the FP7 Cooperation scheme has taken stock of this, by for example including aspects such as substitution, life cycle assessment, improved resource efficiency and better performance materials in the NMP calls for proposals. This is done with the aim to achieve a more green economy and fostering more sustainable consumption and production patterns.

Research on better performing and sustainable materials will more than ever be a pre-condition to meeting such challenges. Progress will come through the development of intelligent materials that embed and transfer knowledge into products and processes or perform certain tasks, when in use or during manufacturing. Already, some 70 per cent of all technical innovations hinge directly or indirectly on the properties of the materials employed. We have passed from the perception "materials are in the drawer" to the perception "materials are the bottleneck". The next step can be "materials are the solution".

At least 60 % of the total proposed Horizon 2020 budget is related to sustainable development, the vast majority of this expenditure contributing to mutually reinforcing climate and environmental objectives. In a resource-scarce Europe, new products must have low material / energy resource needs and high knowledge content. As stated in the Europe 2020 strategy, endorsed by EU leaders: “Europe must promote technologies and production methods that reduce natural resource use, and increase investment in the EU's existing natural assets”.

Materials can have a large environmental impact in many of its stages, from sourcing, extraction, processing, auxiliary materials and processes, use and end of life fate. The choice or design of material solutions can thus have a great impact on the technologies in which they are used. Implying that a material could be an integral part of the solution to a problem created by the use of a specific technology. Such solutions could require entirely new materials either to replace a material or be part of a new technology based on better performing materials and eco-designed products.

Keywords

Sustainabilityenvironmentally benigngovernment policy and funding
Type
Articles
Information
MRS Online Proceedings Library (OPL) , Volume 1492: Symposium D/G – Materials for Sustainable Development—Challenges and Opportunities , 2013 , pp. 61 - 71
Copyright
Copyright © Materials Research Society 2013 

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References

Die Hightech-Strategie für Deutschland – Erster Fortschrittsbericht, BMBF, 2007 Google Scholar
COM(2008) 699 final “The raw materials initiative — meeting our critical needs for growth and jobs in Europe” Google Scholar
COM(2011) 21 “A resource-efficient Europe – Flagship initiative under the Europe 2020 Strategy” Google Scholar
COM(2010) 2020 final “A strategy for smart, sustainable and inclusive growth” Google Scholar
COM(2009)512 Final “Preparing for our future: Developing a common strategy for key enabling technologies in the EU” Google Scholar
McManus, T., Intel Corp 2006. Cited by Magnus Ericsson in presentation at “Trade and Raw Materials – Looking Ahead”, Brussels, 29 Sept 2008 (unpublished) Google Scholar
Metals Recycling Rates, UNEP, ISBN 978-92-807-3161-3, 2011 Google Scholar
Schutter, Geoffrey de, WWF. Presented at “Sustainable development: a challenge for European Research” in Brussels, May 2009 (unpublished) Google Scholar
Towards Circular Economy: Economic and business rationale for an accelerated transition Ellen Macarthur Foundation, 2012 Google Scholar
Critical raw materials for the EU, Report of the Ad-hoc Working Group on defining critical raw materials, European Commission, June 2010 Google Scholar
SEC(2011) 1609 final “Materials Roadmap Enabling Low Carbon Energy Technologies” Google Scholar
COM(2011) 571 final Communication from the Commission to the European Parliament, the Council, The European Economic and Social Committee and the Committee of the Regions: Roadmap to a Resource Efficient Europe Google Scholar
COM(2008) 800 final “A European Economic Recovery Plan” Google Scholar
Benesch, Johan Veiga (ed) Report on Responses to Questionnaire on Environmental Issues in FP7 NMP Projects on Materials, DG RTD, EUR 12366 EN, 2012 Google Scholar
COM(2011) 808 final “Horizon 2020-The Framework Programme for Research and Innovation” Google Scholar
COM(2011) 811 final Proposal for a Council Decision establishing the Specific Programme Implementing Horizon 2020-The Framework Programme for Research and Innovation (2014-2020) Google Scholar