Opportunities in vanadium-based strongly correlated electron systems

Matthew Brahlek; Lei Zhang; Jason Lapano; Hai Tian Zhang; Roman Engel-Herbert; Nikhil Shukla; Suman Datta; Hanjong Paik; Darrell G. Schlom

doi:10.1557/mrc.2017.2

Opportunities in vanadium-based strongly correlated electron systems

Matthew Brahlek
, Lei Zhang
, Jason Lapano
, Hai Tian Zhang
, Roman Engel-Herbert
, Nikhil Shukla
, Suman Datta
, Hanjong Paik
, Darrell G. Schlom

Research output: Contribution to journal › Article › peer-review

94 Scopus citations

Abstract

The diverse and fascinating properties of transition metal oxides stem from the strongly correlated electronic degrees of freedom; the scientific challenge and range of possible applications of these materials have caused fascination among physicists and materials scientists, thus capturing research efforts for nearly a century. Here, we focus on the binary V xO y and the ternary perovskite AVO3 and review the key aspects from the underlying physical framework and their basic properties, recent strides made in thin-film synthesis, to recent efforts to implement vanadium-based oxides for practical applications that augment existing technologies, which surpass limitations of conventional materials.

Original language	English
Pages (from-to)	27-52
Number of pages	26
Journal	MRS Communications
Volume	7
Issue number	1
DOIs	https://doi.org/10.1557/mrc.2017.2
State	Published - Feb 8 2017
Externally published	Yes

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10.1557/mrc.2017.2

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title = "Opportunities in vanadium-based strongly correlated electron systems",

abstract = "The diverse and fascinating properties of transition metal oxides stem from the strongly correlated electronic degrees of freedom; the scientific challenge and range of possible applications of these materials have caused fascination among physicists and materials scientists, thus capturing research efforts for nearly a century. Here, we focus on the binary V xO y and the ternary perovskite AVO3 and review the key aspects from the underlying physical framework and their basic properties, recent strides made in thin-film synthesis, to recent efforts to implement vanadium-based oxides for practical applications that augment existing technologies, which surpass limitations of conventional materials.",

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AU - Brahlek, Matthew

AU - Zhang, Lei

AU - Lapano, Jason

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AU - Engel-Herbert, Roman

AU - Shukla, Nikhil

AU - Datta, Suman

AU - Paik, Hanjong

AU - Schlom, Darrell G.

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N2 - The diverse and fascinating properties of transition metal oxides stem from the strongly correlated electronic degrees of freedom; the scientific challenge and range of possible applications of these materials have caused fascination among physicists and materials scientists, thus capturing research efforts for nearly a century. Here, we focus on the binary V xO y and the ternary perovskite AVO3 and review the key aspects from the underlying physical framework and their basic properties, recent strides made in thin-film synthesis, to recent efforts to implement vanadium-based oxides for practical applications that augment existing technologies, which surpass limitations of conventional materials.

AB - The diverse and fascinating properties of transition metal oxides stem from the strongly correlated electronic degrees of freedom; the scientific challenge and range of possible applications of these materials have caused fascination among physicists and materials scientists, thus capturing research efforts for nearly a century. Here, we focus on the binary V xO y and the ternary perovskite AVO3 and review the key aspects from the underlying physical framework and their basic properties, recent strides made in thin-film synthesis, to recent efforts to implement vanadium-based oxides for practical applications that augment existing technologies, which surpass limitations of conventional materials.

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ER -

Opportunities in vanadium-based strongly correlated electron systems

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