Fortunato, Nuno M. ; Taubel, Andreas ; Marmodoro, Alberto ; Pfeuffer, Lukas ; Ophale, Ingo ; Ebert, Hebert ; Gutfleisch, Oliver ; Zhang, Hongbin (2023)
High‐Throughput Design of Magnetocaloric Materials for Energy Applications: MM´X alloys.
In: Advanced Science, 2023, 10 (17)
doi: 10.26083/tuprints-00024317
Article, Secondary publication, Publisher's Version
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| Item Type: | Article |
|---|---|
| Type of entry: | Secondary publication |
| Title: | High‐Throughput Design of Magnetocaloric Materials for Energy Applications: MM´X alloys |
| Language: | English |
| Date: | 24 November 2023 |
| Place of Publication: | Darmstadt |
| Year of primary publication: | 2023 |
| Place of primary publication: | Weinheim |
| Publisher: | Wiley-VCH |
| Journal or Publication Title: | Advanced Science |
| Volume of the journal: | 10 |
| Issue Number: | 17 |
| Collation: | 11 Seiten |
| DOI: | 10.26083/tuprints-00024317 |
| Corresponding Links: | |
| Origin: | Secondary publication DeepGreen |
| Abstract: | Magnetic refrigeration offers an energy efficient and environmental friendly alternative to conventional vapor‐cooling. However, its adoption depends on materials with tailored magnetic and structural properties. Here a high‐throughput computational workflow for the design of magnetocaloric materials is introduced. Density functional theory calculations are used to screen potential candidates in the family of MM'X (M/M’ = metal, X = main group element) compounds. Out of 274 stable compositions, 46 magnetic compounds are found to stabilize in both an austenite and martensite phase. Following the concept of Curie temperature window, nine compounds are identified as potential candidates with structural transitions, by evaluating and comparing the structural phase transition and magnetic ordering temperatures. Additionally, the use of doping to tailor magnetostructural coupling for both known and newly predicted MM'X compounds is predicted and isostructural substitution as a general approach to engineer magnetocaloric materials is suggested. |
| Uncontrolled Keywords: | ab initio calculations, energy materials, high‐throughput screening, magnetocaloric effect |
| Identification Number: | 2206772 |
| Status: | Publisher's Version |
| URN: | urn:nbn:de:tuda-tuprints-243175 |
| Additional Information: | This article also appears in: Hot Topic: Automated Synthesis |
| Classification DDC: | 500 Science and mathematics > 530 Physics 500 Science and mathematics > 540 Chemistry |
| Divisions: | 11 Department of Materials and Earth Sciences > Material Science > Functional Materials 11 Department of Materials and Earth Sciences > Material Science > Theory of Magnetic Materials |
| Date Deposited: | 24 Nov 2023 13:28 |
| Last Modified: | 04 Jan 2024 07:10 |
| SWORD Depositor: | Deep Green |
| URI: | https://tuprints.ulb.tu-darmstadt.de/id/eprint/24317 |
| PPN: | 51443385X |
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