Role of Superconducting Materials in the Endeavor to Stop Climate Change and Reach Sustainable Development

Progress in the mass production of newly developed bulk (Gd(0.33)Y(0.13)Er(0.53))Ba(2)Cu(3)O(y) “(Gd,Y,Er)123” and MgB(2) systems is presented. Two batches of (Gd,Y,Er)123 pellets of 20 mm diameter and 7 mm thick were prepared in air by an infiltration growth “IG” process. Trapped field distribution profiles of fully grown bulk samples clearly showed that all samples were single-grain and the trapped field values were more than 0.5 T at 77 K, 1.3 mm above top surface. The best bulk exhibited the trapped field value of 0.63 T at 77 K. Ultra-sonication technique was employed for refining precursors of both (Gd,Y,Er)211 and boron. TEM studies revealed that boron powder subjected to ultrasonication was refined up to nanoscale. The micron-sized particles were reduced to nanoscale, which led to improvement of critical current by up to 36% in bulk MgB(2) at 20 K and self-field. This progress in fabrication of high-performance LREBa(2)Cu(3)O(y) and MgB(2) superconducting bulks further promotes commercialization of superconductors’ production as a mode of sustainable technology.