A Unifying Perspective of Common Motifs That Occur across Disparate Classes of Materials Harboring Displacive Phase Transitions
Grünebohm A, Hütten A, Böhmer AE, Frenzel J, Eremin I, Drautz R, Ennen I, Caron L, Kuschel T, Lechermann F, Anselmetti D, et al. (2023)
Advanced Energy Materials 13(30): 23.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Autor*in
Grünebohm, Anna;
Hütten, AndreasUniBi;
Böhmer, Anna E.;
Frenzel, Jan;
Eremin, Ilya;
Drautz, Ralf;
Ennen, Inga;
Caron, LuanaUniBi;
Kuschel, TimoUniBi ;
Lechermann, Frank;
Anselmetti, DarioUniBi ;
Dahm, ThomasUniBi
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Alle
Einrichtung
Abstract / Bemerkung
Several classes of materials manifest displacive phase transitions, including shape memory alloys, many electronically correlated materials, superconductors, and ferroelectrics. Each of these classes of materials displays a wide range of fascinating properties and functionalities that are studied in disparate communities. However, these materials' classes share similar electronic and phononic instabilities in conjunction with microstructural features. Specifically, the common motifs include twinned microstructures, anomalies in the transport behavior, softening of specific phonons, and frequently also (giant) Kohn anomalies, soft phonons, and/or nesting of the Fermi surface. These effects, phenomena, and their applications have until now been discussed in separate communities, which is a missed opportunity. In this perspective a unified framework is presented to understand these materials, by identifying similarities, defining a unified phenomenological description of displacive phase transitions and the associated order parameters, and introducing the main symmetry-breaking mechanisms. This unified framework aims to bring together experimental and theoretical know-how and methodologies across disciplines to enable unraveling hitherto missing important mechanistic understanding about the phase transitions in (magnetic) shape memory alloys, superconductors and correlated materials, and ferroelectrics. Connecting structural and electronic phenomena and microstructure to functional properties may offer so-far unknown pathways to innovate applications based on these materials.
Stichworte
charge density wave;
ferroelectricity;
martensitic phase transition;
shape memory alloys;
superconductivity
Erscheinungsjahr
2023
Zeitschriftentitel
Advanced Energy Materials
Band
13
Ausgabe
30
Seite(n)
23
Urheberrecht / Lizenzen
ISSN
1614-6832
eISSN
1614-6840
Finanzierungs-Informationen
Open-Access-Publikationskosten wurden durch die Universität Bielefeld im Rahmen des DEAL-Vertrags gefördert.
Page URI
https://pub.uni-bielefeld.de/record/2980961
Zitieren
Grünebohm A, Hütten A, Böhmer AE, et al. A Unifying Perspective of Common Motifs That Occur across Disparate Classes of Materials Harboring Displacive Phase Transitions. Advanced Energy Materials. 2023;13(30):23.
Grünebohm, A., Hütten, A., Böhmer, A. E., Frenzel, J., Eremin, I., Drautz, R., Ennen, I., et al. (2023). A Unifying Perspective of Common Motifs That Occur across Disparate Classes of Materials Harboring Displacive Phase Transitions. Advanced Energy Materials, 13(30), 23. https://doi.org/10.1002/aenm.202300754
Grünebohm, Anna, Hütten, Andreas, Böhmer, Anna E., Frenzel, Jan, Eremin, Ilya, Drautz, Ralf, Ennen, Inga, et al. 2023. “A Unifying Perspective of Common Motifs That Occur across Disparate Classes of Materials Harboring Displacive Phase Transitions”. Advanced Energy Materials 13 (30): 23.
Grünebohm, A., Hütten, A., Böhmer, A. E., Frenzel, J., Eremin, I., Drautz, R., Ennen, I., Caron, L., Kuschel, T., Lechermann, F., et al. (2023). A Unifying Perspective of Common Motifs That Occur across Disparate Classes of Materials Harboring Displacive Phase Transitions. Advanced Energy Materials 13, 23.
Grünebohm, A., et al., 2023. A Unifying Perspective of Common Motifs That Occur across Disparate Classes of Materials Harboring Displacive Phase Transitions. Advanced Energy Materials, 13(30), p 23.
A. Grünebohm, et al., “A Unifying Perspective of Common Motifs That Occur across Disparate Classes of Materials Harboring Displacive Phase Transitions”, Advanced Energy Materials, vol. 13, 2023, pp. 23.
Grünebohm, A., Hütten, A., Böhmer, A.E., Frenzel, J., Eremin, I., Drautz, R., Ennen, I., Caron, L., Kuschel, T., Lechermann, F., Anselmetti, D., Dahm, T., Weber, F., Rossnagel, K., Schierning, G.: A Unifying Perspective of Common Motifs That Occur across Disparate Classes of Materials Harboring Displacive Phase Transitions. Advanced Energy Materials. 13, 23 (2023).
Grünebohm, Anna, Hütten, Andreas, Böhmer, Anna E., Frenzel, Jan, Eremin, Ilya, Drautz, Ralf, Ennen, Inga, Caron, Luana, Kuschel, Timo, Lechermann, Frank, Anselmetti, Dario, Dahm, Thomas, Weber, Frank, Rossnagel, Kai, and Schierning, Gabi. “A Unifying Perspective of Common Motifs That Occur across Disparate Classes of Materials Harboring Displacive Phase Transitions”. Advanced Energy Materials 13.30 (2023): 23.
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