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Electrochemical Method for LiFeAs Superconductor

Energy, Cleantech & Environmental
Engineering & Physical Sciences
Materials
Nanomaterials
Superconductors
College
College of Engineering (COE)
Researchers
Majoros, Milan
Collings, Edward
Kanuchova, Maria
Sumption, Michael
Licensing Manager
Bartell, Cordellia
6146882933
bartell.22@osu.edu

T2012-213 Electrochemical method for LiFeAs superconductor preparation suitable for large scale production.

The Need

LiFeAs compounds, compared to FeAs materials, do not demonstrate spin-density wave behavior and exhibit superconductivity at ambient pressures without chemical doping. However, the current electrochemical methods to prepare pnictide LiFeAs superconductors require a solid-state reaction at high temperatures (740 °-1050 °C) for long times (24-60 h), which is not suitable for large scale applications.

The Technology

Researchers at The Ohio State University, led by Dr. Milan Majoros, have developed a novel electrochemical preparation method to produce pnictide LiFeAs superconductors. During electrolysis, Li ions in the electrolyte insert into the FeAs lattice to form LiFeAs on the surface of the FeAs electrode.The method developed offers distinct advantages over the existing electrochemical methods and traditional high temperature solid-state reaction methods.

Commercial Applications

  • Superconducting technology: MRI, high field electromagnets, generators, electric motors
  • Security
  • Healthcare

Benefits/Advantages

  • Operable superconductors in cryogenic temperatures (<18 K)
  • Li anodes are not required
  • High Magnetic Field superconductivity (80T)
  • Procedure is practical for large scale applications