Cost effective, Clean, and Reliable 


and Transmission

Cost-effective, reliable and flexible high temperature superconducting (HTS) ceramic wire to advance Electrical Engineering Industry and save Environment

          From Nobel Prize discovery (1986) of HTS ceramic particles to now, thousands specialists are applying inappropriate mechanical engineering techniques for development of 1G and 2G HTS electric wires with innate quality and reliability drawbacks and very high production and capital costs. Therefore, until now HTS electric wire is not on the market yet.

        In contrast, we successfully processed initial HTS ceramic particles using ceramic engineering methods. Invented and US patented nanotechnology of 3G HTS round wire consists of eight self-controlled thermo-chemical processes: 1) preparation of the YBa2Cu3O7–x (YBCO) ceramic and silver additive powder suspension in silicone-toluene solvent, 2) dip adhesion coating a NiCr alloy filament substrate by YBCO suspension (forming), 3) magnetic grain orientation, 4) drying and polymerization-hardening to make honeycomb-like 3-D nano-architecture, 5) organic burnt out and heating, 6) liquid-phase incongruent-melt sintering at 9250C, which makes HTS ceramic coating layer stone-like hard and reliable, 7) crystal stoichiometry rebuilding by oxygen flow, and 8) cooling 3G HTS wire filaments. Processes 3 – 8 we provide in tube furnace, which allows cost-effective conveyor manufacture of continuous 3G HTS wire filaments.

         In our lab we produced 3G HTS filaments of 0.06mm in diameter that are flexible and reliable in air and liquid nitrogen (LN) ambiences, as copper wire and can transmit with minimized heating losses the same amount of electricity at Cost/Performance ratio, C/P < $8/kA-m, as copper wire of 0.6mm in diameter with C/P = $45/kA-m. These make multi-filament 3G HTS electric round wire highly efficient for all electricity transmission and power application systems and equipments.

        Our research has been voluntarily provided at Polytechnic School of Engineering at New York University. The results have been granted by four US patents and well discussed in 12 our publications in professional journals and 14 presentations at the American Ceramic and Chemical Engineering, Materials Science, NSTI Nano-Tech societies and NJ Technological Council meetings.

        Application of 3G HTS wire and coils can 5 – 7x reduce cost, weight, and diameter (size) of electrical cables, motors, and transformers and save 15% generated power (and GHG emission) worldwide. 3G HTS round wire coils make possible design of magnetic propulsion engines for aircrafts and ships as well as design of compact and fast recharging superconductor magnetic energy storage (SMES) systems that can store tremendous amounts of power for inexpensive electro-vehicles and grid assurance systems.

         We invite licensees and/or sponsors for prototyping and industrial implementation of 3G HTS nanotechnology and manufacturing 3G HTS electric round wire for multi-billion market. 

We invite licensees, government sponsors, and private investors and partners who are interested in our patent-protected and in-lab prototyped innovative technologies and advanced products that will make much more profitable and cleaner power generation, transmission and end-usage. Please Contact us