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Literature DB >> 17767181

Materials science challenges for high-temperature superconducting wire.

S R Foltyn¹, L Civale, J L Macmanus-Driscoll, Q X Jia, B Maiorov, H Wang, M Maley.

Abstract

Twenty years ago in a series of amazing discoveries it was found that a large family of ceramic cuprate materials exhibited superconductivity at temperatures above, and in some cases well above, that of liquid nitrogen. Imaginations were energized by the thought of applications for zero-resistance conductors cooled with an inexpensive and readily available cryogen. Early optimism, however, was soon tempered by the hard realities of these new materials: brittle ceramics are not easily formed into long flexible conductors; high current levels require near-perfect crystallinity; and--the downside of high transition temperature--performance drops rapidly in a magnetic field. Despite these formidable obstacles, thousands of kilometres of high-temperature superconducting wire have now been manufactured for demonstrations of transmission cables, motors and other electrical power components. The question is whether the advantages of superconducting wire, such as efficiency and compactness, can outweigh the disadvantage: cost. The remaining task for materials scientists is to return to the fundamentals and squeeze as much performance as possible from these wonderful and difficult materials.

Entities: Chemical

Year: 2007 PMID： 17767181 DOI： 10.1038/nmat1989

Source DB: PubMed Journal: Nat Mater ISSN： 1476-1122 Impact factor: 43.841

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Cited

28 in total

1. Nanoscale strain-induced pair suppression as a vortex-pinning mechanism in high-temperature superconductors.

Authors: A Llordés; A Palau; J Gázquez; M Coll; R Vlad; A Pomar; J Arbiol; R Guzmán; S Ye; V Rouco; F Sandiumenge; S Ricart; T Puig; M Varela; D Chateigner; J Vanacken; J Gutiérrez; V Moshchalkov; G Deutscher; C Magen; X Obradors
Journal: Nat Mater Date: 2012-02-12 Impact factor: 43.841

2. Structural basis for the decrease in the outward potassium channel current induced by lanthanum.

Authors: Li Hong Wang; Na Jiang; Bo Zhao; Xiao Dong Li; Tian Hong Lu; Xiao Lan Ding; Xiao Hua Huang
Journal: J Biol Inorg Chem Date: 2010-07-24 Impact factor: 3.358

3. Highly aligned carbon nanotube forests coated by superconducting NbC.

Authors: G F Zou; H M Luo; S Baily; Y Y Zhang; N F Haberkorn; J Xiong; E Bauer; T M McCleskey; A K Burrell; L Civale; Y T Zhu; J L Macmanus-Driscoll; Q X Jia
Journal: Nat Commun Date: 2011-08-16 Impact factor: 14.919

4. Synergetic combination of different types of defect to optimize pinning landscape using BaZrO(3)-doped YBa(2)Cu(3)O(7).

Authors: B Maiorov; S A Baily; H Zhou; O Ugurlu; J A Kennison; P C Dowden; T G Holesinger; S R Foltyn; L Civale
Journal: Nat Mater Date: 2009-04-06 Impact factor: 43.841

5. Imaging of Strong Nanoscale Vortex Pinning in GdBaCuO High-Temperature Superconducting Tapes.

Authors: David Collomb; Min Zhang; Weijia Yuan; Simon J Bending
Journal: Nanomaterials (Basel) Date: 2021-04-22 Impact factor: 5.076

6. Strongly enhanced flux pinning in one-step deposition of BaFe₂(As₀.₆₆P₀.₃₃)₂ superconductor films with uniformly dispersed BaZrO₃ nanoparticles.

Authors: Masashi Miura; Boris Maiorov; Takeharu Kato; Takashi Shimode; Keisuke Wada; Seiji Adachi; Keiichi Tanabe
Journal: Nat Commun Date: 2013 Impact factor: 14.919

10. Engineering nanocolumnar defect configurations for optimized vortex pinning in high temperature superconducting nanocomposite wires.

Authors: Sung Hun Wee; Yuri L Zuev; Claudia Cantoni; Amit Goyal
Journal: Sci Rep Date: 2013 Impact factor: 4.379