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  • Titirici, M.Imperial College, UK,Imperial Coll London, Dept Chem Engn, London SW7 2BX, England. (författare)

The sustainable materials roadmap

  • Artikel/kapitelEngelska2022

Förlag, utgivningsår, omfång ...

  • 2022-08-04
  • Institute of Physics,2022
  • printrdacarrier

Nummerbeteckningar

  • LIBRIS-ID:oai:DiVA.org:ri-60010
  • https://urn.kb.se/resolve?urn=urn:nbn:se:ri:diva-60010URI
  • https://doi.org/10.1088/2515-7639/ac4ee5DOI
  • https://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-316451URI

Kompletterande språkuppgifter

  • Språk:engelska
  • Sammanfattning på:engelska

Ingår i deldatabas

Klassifikation

  • Ämneskategori:ref swepub-contenttype
  • Ämneskategori:art swepub-publicationtype

Anmärkningar

  • Funding details: FIRG005, FIRG006; Funding details: 03ET6096A; Funding details: National Science Foundation, NSF, CMMI-1562226, DMR-1651668; Funding details: National Institute of Food and Agriculture, NIFA, 1012359; Funding details: Stiftelsen för Miljöstrategisk Forskning, 646226; Funding details: Horizon 2020 Framework Programme, H2020, 866402; Funding details: H2020 Marie Skłodowska-Curie Actions, MSCA, 721991; Funding details: National Research Council, NRC, CH-INT-106-1; Funding details: UK Research and Innovation, UKRI, EP/V011855/1; Funding details: Faraday Institution, EP/S003053/1, FIRG014; Funding details: Government of Canada; Funding details: Engineering and Physical Sciences Research Council, EPSRC, EP/ V008692/1, EP/L017792/1, EP/M0138/1, EP/R01650X/1, EP/R020140/1, EP/R511675/1, EP/R513052/1, EP/S018204/2, EP/S023259/1, EP/V008676/1; Funding details: Royal Society of Chemistry, RSC, E20-9404; Funding details: Imperial College London; Funding details: European Research Council, ERC, 896637, ERC-2014-STG H2020 639088, ERC-2017-POC 790518; Funding details: Agency for Science, Technology and Research, A*STAR; Funding details: Bundesministerium für Wirtschaft und Energie, BMWi; Funding text 1: The authors would like to acknowledge financial support from the Engineering and Physical Sciences Research Council (EPSRC) (EP/M0138/1 and EP/S023259/1), the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation programme (Grant Agreement No. 866402) and the National Research Council Canada through the Materials for Clean Fuels Challenge Program.; Funding text 2: The research work of the authors in this paper are funded by A*STAR.; Funding text 3: Tim Fellinger would like to thank the German Federal Ministry of Economic Affairs and Energy (BMWi for funding within the Verbundproject innoKA (Project No.: 03ET6096A).; Funding text 4: D P H acknowledges support from the United State Department of Agriculture National Institute of Food and Agriculture Hatch Project 1012359.; Funding text 5: DT and DJF are grateful to the UK Engineering and Physical Science Research Council (EPSRC) for support through the grants EP/L017792/1, EP/ V008692/1, and EP/V008676/1. DT is also thankful to the Royal Society of Chemistry for support through grant E20-9404.; Funding text 6: This project has received funding from the European Union’s Horizon 2020 research and innovation program under the Marie Skłodowska-Curie Grant Agreement No. 721991.; Funding text 7: T D S and S G B gratefully acknowledge support from the National Science Foundation (CMMI-1562226 and DMR-1651668).; Funding text 8: The authors acknowledge support from the European Research Council (ERC-2014-STG H2020 639088; ERC-2017-POC 790518) and the Engineering and Physical Sciences Research Council (EPSRC EP/R511675/1). The Biotechnology and Biological Science Research Council (BBSRC BB/V00364X/1).; Funding text 9: The authors would like to thank The Faraday Institution ReLiB Project Grant Numbers FIRG005 and FIRG006, the UKRI Interdisciplinary Circular Economy Centre for Technology Metals (Met4Tech) Grant No. EP/V011855/1 and the EPSRC Critical Elements and Materials Network (CREAM) EP/R020140/1 for providing financial assistance for this research.; Funding text 10: The author gratefully acknowledges financial support from the UK Engineering and Physical Sciences Research Council (EP/R01650X/1) in the form of an EPSRC Research Fellowship in Hydrogen Storage.; Funding text 11: Centre for Circular Design (CCD): Sanne Visser, UAL PhD researcher. Mistra Future Fashion (MFF) Programme: all partners and especially Sandra Roos and Gustav Sandin, Research Institutes of Sweden (RISE). MFF was funded by the Swedish Government via Mistra, the Foundation for Strategic Environmental Research, to bring about a significant change in the Swedish fashion industry leading to sustainable development in the industry and wider society. Thanks also to all the generous partners on the Trash-2-Cash project, hosted by RISE (Horizon 2020 research and innovation programme under Grant Agreement No. 646226).; Funding text 12: The authors would like to acknowledge financial support from the Engineering and Physical Sciences Research Council (EPSRC) (EP/M0138/1 and EP/R513052/1), the European Union’s Horizon 2020 research and innovation programme through the European Research Council (ERC) (Grant Agreement No. 866402) and the Marie Skłodowska Curie—Individual Fellowship scheme (Grant Agreement No. 896637) and the Government of Canada through its National Research Council (NRC, CH-INT-106-1).; Funding text 13: The authors thank Dr Michael Wise and Dr Florence Gschwend from Lixea and Prof Jason Hallett for valuable input. Agnieszka Brandt-Talbot acknowledges funding by Imperial College London through an Imperial College Research Fellowship.; Funding text 14: H Au would like to thank the Faraday Institution’s LiSTAR Project (EP/S003053/1, Grant FIRG014) for funding. H Al acknowledges the funding provided by the Republic of Turkey Ministry of National Education. M C R is grateful to the EPSRC for funding (EP/S018204/2).
  • QC 20220818
  • Over the past 150 years, our ability to produce and transform engineered materials has been responsible for our current high standards of living, especially in developed economies. However, we must carefully think of the effects our addiction to creating and using materials at this fast rate will have on the future generations. The way we currently make and use materials detrimentally affects the planet Earth, creating many severe environmental problems. It affects the next generations by putting in danger the future of the economy, energy, and climate. We are at the point where something must drastically change, and it must change now. We must create more sustainable materials alternatives using natural raw materials and inspiration from nature while making sure not to deplete important resources, i.e. in competition with the food chain supply. We must use less materials, eliminate the use of toxic materials and create a circular materials economy where reuse and recycle are priorities. We must develop sustainable methods for materials recycling and encourage design for disassembly. We must look across the whole materials life cycle from raw resources till end of life and apply thorough life cycle assessments (LCAs) based on reliable and relevant data to quantify sustainability. We need to seriously start thinking of where our future materials will come from and how could we track them, given that we are confronted with resource scarcity and geographical constrains. This is particularly important for the development of new and sustainable energy technologies, key to our transition to net zero. Currently ‘critical materials’ are central components of sustainable energy systems because they are the best performing. A few examples include the permanent magnets based on rare earth metals (Dy, Nd, Pr) used in wind turbines, Li and Co in Li-ion batteries, Pt and Ir in fuel cells and electrolysers, Si in solar cells just to mention a few. These materials are classified as ‘critical’ by the European Union and Department of Energy. Except in sustainable energy, materials are also key components in packaging, construction, and textile industry along with many other industrial sectors. This roadmap authored by prominent researchers working across disciplines in the very important field of sustainable materials is intended to highlight the outstanding issues that must be addressed and provide an insight into the pathways towards solving them adopted by the sustainable materials community. In compiling this roadmap, we hope to aid the development of the wider sustainable materials research community, providing a guide for academia, industry, government, and funding agencies in this critically important and rapidly developing research space which is key to future sustainability. © 2022 The Author(s). 

Ämnesord och genrebeteckningar

Biuppslag (personer, institutioner, konferenser, titlar ...)

  • Hosseinaei, OmidRISE,Material- och ytdesign(Swepub:ri)omidho@ri.se (författare)
  • Anderson, P. A.University of Birmingham, UK,Univ Birmingham, Birmingham Ctr Strateg Elements & Crit Mat, Birmingham, W Midlands, England.;UKRI Interdisciplinary Circular Econ Ctr Technol, Exeter, Devon, England.;Univ Birmingham, EPSRC Crit Elements & Mat Network CREAM, Birmingham, W Midlands, England.;Faraday Inst, ReLiB Project, Quad One,Harwell Sci & Innovat Campus, Didcot, Oxon, England. (författare)
  • Berglund, Lars,1956-KTH,Wallenberg Wood Science Center,Biokompositer(Swepub:kth)u1wqz3r1 (författare)
  • Li, YuanyuanKTH,Wallenberg Wood Science Center,Biokompositer(Swepub:kth)u1bpdtr4 (författare)
  • Finnveden, GöranKTH,Hållbar utveckling, miljövetenskap och teknik,Luxembourg Inst Sci & Technol Environm Sustainabi, Belvaux, Luxembourg.(Swepub:kth)u11vpuet (författare)
  • Björklund, Anna,Professor,1971-KTH,Hållbar utveckling, miljövetenskap och teknik(Swepub:kth)u1sn3x2w (författare)
  • Imperial College, UKImperial Coll London, Dept Chem Engn, London SW7 2BX, England. (creator_code:org_t)

Sammanhörande titlar

  • Ingår i:Journal of Physics: Institute of Physics5:32515-7639

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