D. Isfort scite author profile

Chemical solution deposition (CSD) has recently emerged as a very competitive technique for obtaining epitaxial films of high quality with controlled nanostructure. In particular, the all-CSD approach is considered to be one of the most promising approaches for cost-effective production of second-generation superconducting wires. The trifluoroacetate (TFA) route is a very versatile route for achieving epitaxial YBa 2 Cu 3 O 7 (YBCO) layers with high critical currents. In this work, recent advances towards improvement of the performance of several conductor architectures based on the YBCO TFA process will be presented. We show that new improved anhydrous TFA precursors allow a significant shortening of the pyrolysis time (∼1.5 h), and we have increased the total film thickness in a single deposition using polymeric additives. On the other hand, further understanding of the YBCO nucleation and growth process has allowed us to obtain a controlled microstructure and high critical currents (J c ≈ 4-5 MA cm −2 and I c ≈ 300 A cm −1 width at 77 K). The growth conditions (CSD) and post-processing conditions (sputtering and CSD) for the underlying oxide cap and buffer layers (CeO 2 , BaZrO 3 , SrTiO 3 , La 2 Zr 2 O 7 , (La, Sr)MnO 3 ) and of self-organized nanostructures (CeO 2 , BaZrO 3 ) deposited by CSD have been investigated to obtain high-quality interfaces in multilayered systems. Different single-crystal or metallic substrates (YSZ-IBAD (yttrium stabilized zirconia-ion beam assisted deposition) and Ni-RABiT (rolling assisted biaxial texturing)) have been investigated and long (≈10 m) CSD biaxially textured buffers (CeO 2 , La 2 Zr 2 O 7 ) have been grown on Ni-RABiT substrates using a reel-to-reel system. High-performance TFA-YBCO-coated conductors have been obtained on vacuum-based buffer layers (I c ≈ 140 A cm −1 width) and on CSD buffer layers grown on IBAD YSZ-SS (stainless steel) substrates. Finally, we report on recent analysis of the magnetic granularity and vortex pinning properties of TFA-YBCO conductors.

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Cracking and oxygenation of YBaCuO bulk superconductors: application to c-axis elements for current limitation

Isfort

Chaud

Tournier

et al. 2003

Physica C: Superconductivity

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Processing of large Y₁Ba₂Cu₃O_7-xsingle domains for current-limiting applications

Tournier

Beaugnon

Belmont

et al. 2000

Supercond. Sci. Technol.

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Bulk-textured YBa 2 Cu 3 O 7−x single domains could be used for current-limiting applications by cutting and assembling long meanders, which would be submitted to network electric fields before using a breaker to interrupt a fault current. For that purpose, large YBaCuO single domains up to 93 mm in diameter can be isothermally grown by using a standard melt texturing growth (MTG) process with a SmBaCuO seed. The essential parameters that have to be controlled in order to reach this size are the temperature growth window, the substrate reactivity and the temperature homogeneity in the sample. Standard 45 mm diameter single domains show excellent superconducting properties, such as J c above 10 5 A cm −2 and a homogeneous superconducting-to-normal transition at 91.8 K for 20 cm long conductors cut in these pellets. These measurements demonstrate the long -range homogeneity of single domains regarding T c and J c . Nevertheless the high J c values lead to a too large a dissipation in the normal state at T = 77 K. Different methods to reduce the critical current density are described in order to fulfill the conditions for a safe recovery of the material after undergoing a magnetothermal transition.

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D. Isfort

Progress towards all-chemical superconducting YBa₂Cu₃O₇-coated conductors

Cracking and oxygenation of YBaCuO bulk superconductors: application to c-axis elements for current limitation

Processing of large Y₁Ba₂Cu₃O_7-xsingle domains for current-limiting applications

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D. Isfort

Progress towards all-chemical superconducting YBa2Cu3O7-coated conductors

Cracking and oxygenation of YBaCuO bulk superconductors: application to c-axis elements for current limitation

Processing of large Y1Ba2Cu3O7-xsingle domains for current-limiting applications

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Product

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Progress towards all-chemical superconducting YBa₂Cu₃O₇-coated conductors

Processing of large Y₁Ba₂Cu₃O_7-xsingle domains for current-limiting applications