Beyond expectation : advanced materials design, synthesis, and processing to enable novel ferroelectric properties and applications
Kim, Jieun (University of California, Berkeley. Department of Materials Science and Engineering)
Lupi, Eduardo (University of California, Berkeley. Department of Materials Science and Engineering)
Pesquera, David (Institut Català de Nanociència i Nanotecnologia)
Acharya, Megha (Lawrence Berkeley National Laboratory. Materials Sciences Division)
Zhao, Wenbo (University of California, Berkeley. Department of Materials Science and Engineering)
Velarde, Gabriel A. P. (University of California, Berkeley. Department of Materials Science and Engineering)
Griffin, Sinead (Lawrence Berkeley National Laboratory. Molecular Foundry)
Martin, Lane W. (Lawrence Berkeley National Laboratory. Molecular Foundry)

Data:	2020
Resum:	Ferroelectrics and related materials (e. g. , non-traditional ferroelectrics such as relaxors) have long been used in a range of applications, but with the advent of new ways of modeling, synthesizing, and characterizing these materials, continued access to astonishing breakthroughs in our fundamental understanding come each year. While we still rely on these materials in a range of applications, we continue to re-write what is possible to be done with them. In turn, assumptions that have underpinned the use and design of certain materials are progressively being revisited. This perspective aims to provide an overview of the field of ferroelectric/relaxor/polar-oxide thin films in recent years, with an emphasis on emergent structure and function enabled by advanced synthesis, processing, and computational modeling.
Drets:	Tots els drets reservats.
Llengua:	Anglès
Document:	Article ; recerca ; Versió sotmesa a revisió
Matèria:	Advanced materials ; Computational model ; Emergent structure ; Ferroelectric property ; Non-traditional ; Relaxors
Publicat a:	MRS Advances, Vol. 5 (2020) , p. 3453-3472, ISSN 2059-8521

DOI: 10.1557/adv.2020.344

Preprint 23 p, 1.3 MB

Postprint 24 p, 1.2 MB

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