Publikation: 3D strain-induced superconductivity in La2CuO4+δ using a simple vertically aligned nanocomposite approach
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2019
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Choi, Eun-Mi
Zhu, Bonan
Lu, Ping
Alpern, Hen
Zhang, Kelvin H. L.
Shapira, Tamar
Feighan, John
Sun, Xing
MacManus-Driscoll, Judith L.
et al.
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Science Advances. American Association for the Advancement of Science (AAAS). 2019, 5(4), eaav5532. eISSN 2375-2548. Available under: doi: 10.1126/sciadv.aav5532
Zusammenfassung
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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CHOI, Eun-Mi, Angelo DI BERNARDO, Bonan ZHU, Ping LU, Hen ALPERN, Kelvin H. L. ZHANG, Tamar SHAPIRA, John FEIGHAN, Xing SUN, Judith L. MACMANUS-DRISCOLL, 2019. 3D strain-induced superconductivity in La2CuO4+δ using a simple vertically aligned nanocomposite approach. In: Science Advances. American Association for the Advancement of Science (AAAS). 2019, 5(4), eaav5532. eISSN 2375-2548. Available under: doi: 10.1126/sciadv.aav5532BibTex
@article{Choi2019-04strai-48455,
year={2019},
doi={10.1126/sciadv.aav5532},
title={3D strain-induced superconductivity in La<sub>2</sub>CuO<sub>4+δ</sub> using a simple vertically aligned nanocomposite approach},
number={4},
volume={5},
journal={Science Advances},
author={Choi, Eun-Mi and Di Bernardo, Angelo and Zhu, Bonan and Lu, Ping and Alpern, Hen and Zhang, Kelvin H. L. and Shapira, Tamar and Feighan, John and Sun, Xing and MacManus-Driscoll, Judith L.},
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<dcterms:abstract xml:lang="eng">A long-term goal for superconductors is to increase the superconducting transition temperature, T<sub>C</sub>. In cuprates, T<sub>C</sub> 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 La<sub>2</sub>CuO<sub>4+δ</sub> + LaCuO<sub>3</sub>, 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 La<sub>2</sub>CuO<sub>4+δ</sub> films. Our proof-of-concept work represents an entirely new approach to increasing TC in cuprates or other superconductors.</dcterms:abstract>
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