open access publication

Article, 2023

A practical perspective on the potential of rechargeable Mg batteries

Energy & Environmental Science, ISSN 1754-5706, 1754-5692, Volume 16, 5, Pages 1964-1981, 10.1039/d2ee04121a

Contributors

Blázquez, Jose Alberto 0000-0003-3391-9788 [1] Maça, Rudi Ruben 0000-0003-2329-8551 [1] Leonet, Olatz 0000-0002-4108-5886 [1] Azaceta, Eneko [1] Mukherjee, Ayan 0000-0001-7878-3787 [2] Zhao-Karger, Zhirong 0000-0002-7233-9818 [3] [4] Li, Zhenyou 0000-0001-9624-2124 [3] [4] Kovalevsky, Aleksey 0000-0001-6422-129X [5] Fernández-Barquín, Ana 0000-0003-4035-4164 [1] Mainar, Aroa Ramos 0000-0003-3400-5160 [1] Jankowski, Piotr [6] Rademacher, Laurin [7] Dey, Sunita 0000-0002-6601-7169 [8] Dutton, Siân E 0000-0003-0984-5504 [8] Grey, Clare Philomena 0000-0001-5572-192X [8] Drews, Janina [7] Häcker, Joachim [7] Danner, Timo 0000-0003-2336-6059 [3] [7] Latz, Arnulf 0000-0003-1449-8172 [3] [7] [9] Sotta, Dane 0000-0002-6119-7113 [10] Palacín, Maria Rosa 0000-0001-7351-2005 [11] Martin, Jean-Frédéric 0000-0003-0879-870X [10] Lastra, Juan Maria Garcia [6] Fichtner, Maximillian 0000-0002-7127-1823 [3] [4] Kundu, Sumana [5] Kraytsberg, Alexander [5] Ein-Eli, Yair 0000-0002-3823-4588 [5] Noked, Malachi 0000-0001-8995-0632 [2] Aurbach, Doron [2]

Affiliations

  1. [1] Centre for Electrochemical Technologies
    2. [NORA names: Spain; Europe, EU; OECD];
  2. [2] Bar-Ilan University
    3. [NORA names: Israel; Asia, Middle East; OECD];
  3. [3] Helmholtz-Institute Ulm
    4. [NORA names: Germany; Europe, EU; OECD];
  4. [4] Karlsruhe Institute of Technology
    5. [NORA names: Germany; Europe, EU; OECD];
  5. [5] Technion – Israel Institute of Technology
    6. [NORA names: Israel; Asia, Middle East; OECD];

Abstract

Emerging energy storage systems based on abundant and cost-effective materials are key to overcome the global energy and climate crisis of the 21st century. Emerging energy storage systems based on abundant and cost-effective materials are key to overcome the global energy and climate crisis of the 21st century. Rechargeable Magnesium Batteries (RMB), based on Earth-abundant magnesium, can provide a cheap and environmentally responsible alternative to the benchmark Li-ion technology, especially for large energy storage applications. Currently, RMB technology is the subject of intense research efforts at laboratory scale. However, these emerging approaches must be placed in a real-world perspective to ensure that they satisfy key technological requirements. In an attempt to bridge the gap between laboratory advancements and industrial development demands, herein, we report the first non-aqueous multilayer RMB pouch cell prototypes and propose a roadmap for a new advanced RMB chemistry. Through this work, we aim to show the great unrealized potential of RMBs.

Keywords

Li-ion technology, Mg batteries, advances, alternative, applications, approach, battery, cell prototype, chemistry, climate, climate crisis, cost-effective materials, crisis, demand, development demands, efforts, energy, energy storage applications, energy storage system, gap, global energy, intensive research efforts, laboratory, laboratory advances, laboratory scale, magnesium, magnesium batteries, materials, perspective, potential, pouch cell prototype, practical perspective, prototype, rechargeable Mg batteries, rechargeable magnesium batteries, requirements, research efforts, scale, storage applications, storage system, subject of intense research efforts, subjects, system, technological requirements, technology

Funders

  • European Commission

Data Provider: Digital Science

LINKS
-

Matching Records in NORA

SUBJECTS
+

METRICS
+