A Roadmap for Transforming Research to Invent the Batteries of the Future Designed within the European Large Scale Research Initiative BATTERY 2030+

Amici, Julia; Lorrmann, Henning; Asinari, Pietro; Punckt, Christian; Berecibar, Maitane; Raccurt, Olivier; Stein, Helge; Fichtner, Maximilian; Ayerbe, Elixabete; Berg, Erik; Heuer, Andreas; Hartmann, Sarah; Latz, Arnulf; Bhowmik, Arghya; Meeus, Marcel; Edström, Kristina; Jana, Saibal; Bayle-Guillemaud, Pascale; Grimaud, Alexis; Winter, Martin; Løvvik, Ole Martin; Vegge, Tejs; Ruhland, Janna; Wolf, Andreas; Wenzel, Wolfgang; Bodoardo, Silvia; Castelli, Ivano E.; Heiries, Vincent; Lyonnard, Sandrine; Kallo, Josef; Perraud, Simon; Barboux, Philippe; Paillard, Elie; Jabbour, Lara; Weil, Marcel; Dominko, Robert; Christensen, Rune; Sheridan, Edel; Guillet, Nicolas; Behm, R. Jürgen; Placke, Tobias; Cekic-Laskovic, Isidora; Trapp, Victor; Hermansson, Kersti; Diehm, Ralf; Franco, Alejandro A.; Clark, Simon; Tarascon, Jean-Marie; Hahlin, Maria

doi:10.1002/aenm.202102785

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@ARTICLE{Amici:905963,
      author       = {Amici, Julia and Asinari, Pietro and Ayerbe, Elixabete and
                      Barboux, Philippe and Bayle-Guillemaud, Pascale and Behm, R.
                      Jürgen and Berecibar, Maitane and Berg, Erik and Bhowmik,
                      Arghya and Bodoardo, Silvia and Castelli, Ivano E. and
                      Cekic-Laskovic, Isidora and Christensen, Rune and Clark,
                      Simon and Diehm, Ralf and Dominko, Robert and Fichtner,
                      Maximilian and Franco, Alejandro A. and Grimaud, Alexis and
                      Guillet, Nicolas and Hahlin, Maria and Hartmann, Sarah and
                      Heiries, Vincent and Hermansson, Kersti and Heuer, Andreas
                      and Jana, Saibal and Jabbour, Lara and Kallo, Josef and
                      Latz, Arnulf and Lorrmann, Henning and Løvvik, Ole Martin
                      and Lyonnard, Sandrine and Meeus, Marcel and Paillard, Elie
                      and Perraud, Simon and Placke, Tobias and Punckt, Christian
                      and Raccurt, Olivier and Ruhland, Janna and Sheridan, Edel
                      and Stein, Helge and Tarascon, Jean-Marie and Trapp, Victor
                      and Vegge, Tejs and Weil, Marcel and Wenzel, Wolfgang and
                      Winter, Martin and Wolf, Andreas and Edström, Kristina},
      title        = {{A} {R}oadmap for {T}ransforming {R}esearch to {I}nvent the
                      {B}atteries of the {F}uture {D}esigned within the {E}uropean
                      {L}arge {S}cale {R}esearch {I}nitiative {BATTERY} 2030+},
      journal      = {Advanced energy materials},
      volume       = {12},
      number       = {17},
      issn         = {1614-6832},
      address      = {Weinheim},
      publisher    = {Wiley-VCH},
      reportid     = {FZJ-2022-01144},
      pages        = {2102785 -},
      year         = {2022},
      abstract     = {This roadmap presents the transformational research ideas
                      proposed by “BATTERY 2030+,” the European large-scale
                      research initiative for future battery chemistries. A
                      “chemistry-neutral” roadmap to advance battery research,
                      particularly at low technology readiness levels, is
                      outlined, with a time horizon of more than ten years. The
                      roadmap is centered around six themes: 1) accelerated
                      materials discovery platform, 2) battery interface genome,
                      with the integration of smart functionalities such as 3)
                      sensing and 4) self-healing processes. Beyond chemistry
                      related aspects also include crosscutting research regarding
                      5) manufacturability and 6) recyclability. This roadmap
                      should be seen as an enabling complement to the global
                      battery roadmaps which focus on expected ultrahigh battery
                      performance, especially for the future of transport.
                      Batteries are used in many applications and are considered
                      to be one technology necessary to reach the climate goals.
                      Currently the market is dominated by lithium-ion batteries,
                      which perform well, but despite new generations coming in
                      the near future, they will soon approach their performance
                      limits. Without major breakthroughs, battery performance and
                      production requirements will not be sufficient to enable the
                      building of a climate-neutral society. Through this
                      “chemistry neutral” approach a generic toolbox
                      transforming the way batteries are developed, designed and
                      manufactured, will be created.},
      cin          = {IEK-12},
      ddc          = {050},
      cid          = {I:(DE-Juel1)IEK-12-20141217},
      pnm          = {1221 - Fundamentals and Materials (POF4-122)},
      pid          = {G:(DE-HGF)POF4-1221},
      typ          = {PUB:(DE-HGF)16},
      UT           = {WOS:000744938600001},
      doi          = {10.1002/aenm.202102785},
      url          = {https://juser.fz-juelich.de/record/905963},
}

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