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Literature DB >> 22126391

Epitaxial superconducting δ-MoN films grown by a chemical solution method.

Yingying Zhang¹, Nestor Haberkorn, Filip Ronning, Haiyan Wang, Nathan A Mara, Mujin Zhuo, Li Chen, Joon Hwan Lee, Karen J Blackmore, Eve Bauer, Anthony K Burrell, Thomas M McCleskey, Marilyn E Hawley, Roland K Schulze, Leonardo Civale, Tsuyoshi Tajima, Quanxi Jia.

Abstract

The synthesis of pure δ-MoN with desired superconducting properties usually requires extreme conditions, such as high temperature and high pressure, which hinders its fundamental studies and applications. Herein, by using a chemical solution method, epitaxial δ-MoN thin films have been grown on c-cut Al(2)O(3) substrates at a temperature lower than 900 °C and an ambient pressure. The films are phase pure and show a T(c) of 13.0 K with a sharp transition. In addition, the films show a high critical field and excellent current carrying capabilities, which further prove the superior quality of these chemically prepared epitaxial thin films.

Entities: Chemical

Year: 2011 PMID： 22126391 DOI： 10.1021/ja208868k

Source DB: PubMed Journal: J Am Chem Soc ISSN： 0002-7863 Impact factor: 15.419

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Cited

5 in total

1. Formation of buried superconducting Mo₂N by nitrogen-ion-implantation.

Authors: Joonhyuk Lee; Jun Kue Park; Joon Woo Lee; Yunseok Heo; Yoon Seok Oh; Jae S Lee; Jinhyung Cho; Hyoungjeen Jeen
Journal: RSC Adv Date: 2020-12-16 Impact factor: 4.036

2. General molten-salt route to three-dimensional porous transition metal nitrides as sensitive and stable Raman substrates.

Authors: Haomin Guan; Wentao Li; Jing Han; Wencai Yi; Hua Bai; Qinghong Kong; Guangcheng Xi
Journal: Nat Commun Date: 2021-03-02 Impact factor: 14.919

Epitaxial superconducting δ-MoN films grown by a chemical solution method.

1. Formation of buried superconducting Mo₂N by nitrogen-ion-implantation.

2. General molten-salt route to three-dimensional porous transition metal nitrides as sensitive and stable Raman substrates.

3. Magnetic Properties in Mn-Doped δ-MoN: A Systematic Density Functional Theory Study.

4. The Hardest Superconducting Metal Nitride.

5. Low temperature synthesis of plasmonic molybdenum nitride nanosheets for surface enhanced Raman scattering.

Epitaxial superconducting δ-MoN films grown by a chemical solution method.

1. Formation of buried superconducting Mo2N by nitrogen-ion-implantation.

2. General molten-salt route to three-dimensional porous transition metal nitrides as sensitive and stable Raman substrates.

3. Magnetic Properties in Mn-Doped δ-MoN: A Systematic Density Functional Theory Study.

4. The Hardest Superconducting Metal Nitride.

5. Low temperature synthesis of plasmonic molybdenum nitride nanosheets for surface enhanced Raman scattering.

1. Formation of buried superconducting Mo₂N by nitrogen-ion-implantation.