Materials Acceleration Platforms (MAPs): Accelerating Materials Research and Development to Meet Urgent Societal Challenges

Stier, Simon P.; Kreisbeck, Christoph; Ihssen, Holger; Popp, Matthias Albert; Hauch, Jens; Malek, Kourosh; Reynaud, Marine; Goumans, T.P.M.; Carlsson, Johan; Todorov, Ilian; Gold, Lukas; Räder, Andreas; Wenzel, Wolfgang; Bandesha, Shahbaz Tareq; Jacques, Philippe; Garcia‐Moreno, Francisco; Arcelus, Oier; Friederich, Pascal; Clark, Simon; Maglione, Mario; Laukkanen, Anssi; Castelli, Ivano Eligio; Carrasco, Javier; Cabanas, Montserrat Casas; Stein, Helge Sören; Ozcan, Ozlem; Elbert, David; Reuter, Karsten; Scheurer, Christoph; Demura, Masahiko; Han, Sang Soo; Vegge, Tejs; Nakamae, Sawako; Fabrizio, Monica; Kozdras, Mark

doi:10.1002/adma.202407791

Advanced Materials

2024

DOI: 10.1002/adma.202407791

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Materials Acceleration Platforms (MAPs): Accelerating Materials Research and Development to Meet Urgent Societal Challenges

Simon P. Stier,

Christoph Kreisbeck,

Holger Ihssen

et al.

Abstract: Climate Change and Materials Criticality challenges are driving urgent responses from global governments. These global responses drive policy to achieve sustainable, resilient, clean solutions with Advanced Materials (AdMats) for industrial supply chains and economic prosperity. The research landscape comprising industry, academe, and government identified a critical path to accelerate the Green Transition far beyond slow conventional research through Digital Technologies that harness Artificial Intelligence, … Show more

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Cited by 2 publications

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Synthesis‐Structure‐Property of High‐Entropy Layered Oxide Cathode for Li/Na/K‐Ion Batteries

Zheng,

Meng,

et al. 2024

Advanced Materials

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Increasing demand for rechargeable batteries necessitates improvements in electrochemical performance. Traditional optimal approaches such as elemental doping and surface modification are insufficient for practical applications of the batteries. High‐entropy materials (HEMs) possess stable solid‐state phases and unparalleled flexibility in composition and electronic structure, which facilitate rapid advancements in battery materials. This review demonstrates the properties of HEMs both qualitatively and quantitatively, and the mechanisms of their enhancement on battery properties. It also illustrates the progress in high‐entropy layered oxide cathode materials (HELOs) for lithium/sodium/potassium ion batteries (LIBs/SIBs/PIBs) in the perspectives of synthesis, characterization and application, and elucidating the synthesis‐structure‐property relationship. Furthermore, it outlines future directions for high‐entropy strategies in battery study: precise synthesis control, understanding of reaction mechanisms through structural characterization, elucidation of structure‐performance correlations, and the computational and experimental methods integration for rapid screening and analysis of HEMs. The perspective aims to inspire researchers in the development of high‐performance rechargeable batteries.

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Synthesis‐Structure‐Property of High‐Entropy Layered Oxide Cathode for Li/Na/K‐Ion Batteries

Zheng,

Meng,

et al. 2024

Advanced Materials

View full text Add to dashboard Cite

show abstract

PEPR DIADEM: Priority equipment and research program on the development of innovative materials using artificial intelligence

Lomello,

Bard,

Maglione

et al. 2024

Computational and Structural Biotechnology Journal

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Materials Acceleration Platforms (MAPs): Accelerating Materials Research and Development to Meet Urgent Societal Challenges

Cited by 2 publications

References 47 publications

Synthesis‐Structure‐Property of High‐Entropy Layered Oxide Cathode for Li/Na/K‐Ion Batteries

Synthesis‐Structure‐Property of High‐Entropy Layered Oxide Cathode for Li/Na/K‐Ion Batteries

PEPR DIADEM: Priority equipment and research program on the development of innovative materials using artificial intelligence

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