In situ observations and tuning of physical and chemical phenomena on the surfaces of strongly correlated oxides

Zheng Gai; S. V. Kalinin; An Ping Li; Jian Shen; A. P. Baddorf

doi:10.1002/adfm.201203425

In situ observations and tuning of physical and chemical phenomena on the surfaces of strongly correlated oxides

Zheng Gai, S. V. Kalinin, An Ping Li, Jian Shen, A. P. Baddorf

Scanning Tunneling Microscopy Group

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

10 Scopus citations

Abstract

The characteristic aspect of strongly correlated oxides systems is the strong coupling between the structural, electronic and magnetic properties. A small change in one property can produce a large change in another. Controllable surface tuning provides the opportunity to study how structural, electronic, and magnetic properties respond to the broken symmetry and opens avenues for exploration of completely new physical properties. The extreme sensitivity of properties to external chemical and physical stimuli makes in situ characterization a requirement for controlled tuning of complex correlated materials. This paper reviews some recent progress in in situ observations and tuning of physical and chemical phenomena on the surfaces of strongly correlated oxides thin films and crystals, including atomic-level structural studies, control, and tuning of the physical properties.

Original language	English
Pages (from-to)	2477-2489
Number of pages	13
Journal	Advanced Functional Materials
Volume	23
Issue number	20
DOIs	https://doi.org/10.1002/adfm.201203425
State	Published - May 28 2013

Keywords

epitaxy
strongly correlated oxides
structure-property relationships
thin films

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AU - Li, An Ping

AU - Shen, Jian

AU - Baddorf, A. P.

PY - 2013/5/28

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AB - The characteristic aspect of strongly correlated oxides systems is the strong coupling between the structural, electronic and magnetic properties. A small change in one property can produce a large change in another. Controllable surface tuning provides the opportunity to study how structural, electronic, and magnetic properties respond to the broken symmetry and opens avenues for exploration of completely new physical properties. The extreme sensitivity of properties to external chemical and physical stimuli makes in situ characterization a requirement for controlled tuning of complex correlated materials. This paper reviews some recent progress in in situ observations and tuning of physical and chemical phenomena on the surfaces of strongly correlated oxides thin films and crystals, including atomic-level structural studies, control, and tuning of the physical properties.

KW - epitaxy

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KW - structure-property relationships

KW - thin films

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In situ observations and tuning of physical and chemical phenomena on the surfaces of strongly correlated oxides

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Keywords

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