• Designing Aqueous Organic Electrolytes for Zinc-Air Batteries: Method, Simulation, and Validation 

      Clark, Simon; Mainar, Aroa R.; Iruin, Elena; Colmenares, Luis C.; Blázquez, Alberto; Tolchard, Julian R; Jusys, Zenonas; Horstmann, Birger (Peer reviewed; Journal article, 2020)
      Aqueous zinc–air batteries (ZABs) are a low‐cost, safe, and sustainable technology for stationary energy storage. ZABs with pH‐buffered near‐neutral electrolytes have the potential for longer lifetime compared to traditional ...
    • Rechargeable Batteries of the Future—The State of the Art from a BATTERY 2030+ Perspective 

      Clark, Simon; Fichtner, Maximilian; Edström, Kristina; Ayerbe, Elixabete; Berecibar, Maitane; Bhowmik, Arghya; Castelli, Ivano E.; Dominko, Roberto; Erakca, Merve; Franco, Alejandro A.; Grimaud, Alexis; Horstmann, Birger; Latz, Arnulf; Lorrmann, Henning; Meeus, Marcel; Narayan, Rekha; Pammer, Frank; Ruhland, Janna; Stein, Helge; Vegge, Tejs; Weil, Marcel (Peer reviewed; Journal article, 2021)
      The development of new batteries has historically been achieved through discovery and development cycles based on the intuition of the researcher, followed by experimental trial and error—often helped along by serendipitous ...
    • A Review of Model-Based Design Tools for Metal-Air Batteries 

      Clark, Simon; Latz, Arnulf; Horstmann, Birger (Peer reviewed; Journal article, 2018)
      The advent of large-scale renewable energy generation and electric mobility is driving a growing need for new electrochemical energy storage systems. Metal-air batteries, particularly zinc-air, are a promising technology ...