3D strain-induced superconductivity in La2CuO4+δ using a simple vertically aligned nanocomposite approach

Eun Mi Choi; Angelo Di Bernardo; Bonan Zhu; Ping Lu; Hen Alpern; Kelvin H.L. Zhang; Tamar Shapira; John Feighan; Xing Sun; Jason Robinson; Yossi Paltiel; Oded Millo; Haiyan Wang; Quanxi Jia; Judith L. MacManus-Driscoll

doi:10.1126/sciadv.aav5532

3D strain-induced superconductivity in La²CuO^4+δ using a simple vertically aligned nanocomposite approach

Eun Mi Choi^*, Angelo Di Bernardo, Bonan Zhu, Ping Lu, Hen Alpern, Kelvin H.L. Zhang, Tamar Shapira, John Feighan, Xing Sun, Jason Robinson, Yossi Paltiel, Oded Millo, Haiyan Wang, Quanxi Jia, Judith L. MacManus-Driscoll

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34 引用（Scopus）

摘要

A long-term goal for superconductors is to increase the superconducting transition temperature, TC. In cuprates, TC depends strongly on the out-of-plane Cu-apical oxygen distance and the in-plane Cu-O distance, but there has been little attention paid to tuning them independently. Here, in simply grown, self-assembled, vertically aligned nanocomposite thin films of La²CuO^4+δ + LaCuO³, by strongly increasing out-of-plane distances without reducing in-plane distances (three-dimensional strain engineering), we achieve superconductivity up to 50 K in the vertical interface regions, spaced ∼50 nm apart. No additional process to supply excess oxygen, e.g., by ozone or high-pressure oxygen annealing, was required, as is normally the case for plain La²CuO^4+δ films. Our proof-of-concept work represents an entirely new approach to increasing TC in cuprates or other superconductors.

源语言	英语
文章编号	eaav5532
期刊	Science advances
卷	5
期	4
DOI	https://doi.org/10.1126/sciadv.aav5532
出版状态	已出版 - 2019
已对外发布	是

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10.1126/sciadv.aav5532

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Choi, E. M., Di Bernardo, A., Zhu, B., Lu, P., Alpern, H., Zhang, K. H. L., Shapira, T., Feighan, J., Sun, X., Robinson, J., Paltiel, Y., Millo, O., Wang, H., Jia, Q., & MacManus-Driscoll, J. L. (2019). 3D strain-induced superconductivity in La²CuO^4+δ using a simple vertically aligned nanocomposite approach. Science advances, 5(4), 文章 eaav5532. https://doi.org/10.1126/sciadv.aav5532

@article{64ac328150954ac9bcda82e93b39e20b,

title = "3D strain-induced superconductivity in La2CuO4+δ using a simple vertically aligned nanocomposite approach",

abstract = "A long-term goal for superconductors is to increase the superconducting transition temperature, TC. In cuprates, TC depends strongly on the out-of-plane Cu-apical oxygen distance and the in-plane Cu-O distance, but there has been little attention paid to tuning them independently. Here, in simply grown, self-assembled, vertically aligned nanocomposite thin films of La2CuO4+δ + LaCuO3, by strongly increasing out-of-plane distances without reducing in-plane distances (three-dimensional strain engineering), we achieve superconductivity up to 50 K in the vertical interface regions, spaced ∼50 nm apart. No additional process to supply excess oxygen, e.g., by ozone or high-pressure oxygen annealing, was required, as is normally the case for plain La2CuO4+δ films. Our proof-of-concept work represents an entirely new approach to increasing TC in cuprates or other superconductors.",

author = "Choi, {Eun Mi} and {Di Bernardo}, Angelo and Bonan Zhu and Ping Lu and Hen Alpern and Zhang, {Kelvin H.L.} and Tamar Shapira and John Feighan and Xing Sun and Jason Robinson and Yossi Paltiel and Oded Millo and Haiyan Wang and Quanxi Jia and MacManus-Driscoll, {Judith L.}",

note = "Publisher Copyright: {\textcopyright} 2019 The Authors.",

year = "2019",

doi = "10.1126/sciadv.aav5532",

language = "English",

volume = "5",

journal = "Science advances",

issn = "2375-2548",

publisher = "American Association for the Advancement of Science",

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}

Choi, EM, Di Bernardo, A, Zhu, B, Lu, P, Alpern, H, Zhang, KHL, Shapira, T, Feighan, J, Sun, X, Robinson, J, Paltiel, Y, Millo, O, Wang, H, Jia, Q & MacManus-Driscoll, JL 2019, '3D strain-induced superconductivity in La²CuO^4+δ using a simple vertically aligned nanocomposite approach', Science advances, 卷 5, 号码 4, eaav5532. https://doi.org/10.1126/sciadv.aav5532

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T1 - 3D strain-induced superconductivity in La2CuO4+δ using a simple vertically aligned nanocomposite approach

AU - Choi, Eun Mi

AU - Di Bernardo, Angelo

AU - Zhu, Bonan

AU - Lu, Ping

AU - Alpern, Hen

AU - Zhang, Kelvin H.L.

AU - Shapira, Tamar

AU - Feighan, John

AU - Sun, Xing

AU - Robinson, Jason

AU - Paltiel, Yossi

AU - Millo, Oded

AU - Wang, Haiyan

AU - Jia, Quanxi

AU - MacManus-Driscoll, Judith L.

PY - 2019

Y1 - 2019

N2 - A long-term goal for superconductors is to increase the superconducting transition temperature, TC. In cuprates, TC depends strongly on the out-of-plane Cu-apical oxygen distance and the in-plane Cu-O distance, but there has been little attention paid to tuning them independently. Here, in simply grown, self-assembled, vertically aligned nanocomposite thin films of La2CuO4+δ + LaCuO3, by strongly increasing out-of-plane distances without reducing in-plane distances (three-dimensional strain engineering), we achieve superconductivity up to 50 K in the vertical interface regions, spaced ∼50 nm apart. No additional process to supply excess oxygen, e.g., by ozone or high-pressure oxygen annealing, was required, as is normally the case for plain La2CuO4+δ films. Our proof-of-concept work represents an entirely new approach to increasing TC in cuprates or other superconductors.

AB - A long-term goal for superconductors is to increase the superconducting transition temperature, TC. In cuprates, TC depends strongly on the out-of-plane Cu-apical oxygen distance and the in-plane Cu-O distance, but there has been little attention paid to tuning them independently. Here, in simply grown, self-assembled, vertically aligned nanocomposite thin films of La2CuO4+δ + LaCuO3, by strongly increasing out-of-plane distances without reducing in-plane distances (three-dimensional strain engineering), we achieve superconductivity up to 50 K in the vertical interface regions, spaced ∼50 nm apart. No additional process to supply excess oxygen, e.g., by ozone or high-pressure oxygen annealing, was required, as is normally the case for plain La2CuO4+δ films. Our proof-of-concept work represents an entirely new approach to increasing TC in cuprates or other superconductors.

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JO - Science advances

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3D strain-induced superconductivity in La2CuO4+δ using a simple vertically aligned nanocomposite approach

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3D strain-induced superconductivity in La²CuO^4+δ using a simple vertically aligned nanocomposite approach