Unlocking the Power of Superconductivity
At ZeLoCon, we are revolutionizing the semiconductor industry with our groundbreaking development of superconducting systems at room temperature.
Superconductivity at room temperature
Controlling cars with thoughts. Seeing what is hidden from the human eye. Even more powerful computers that still have much longer battery life. Electronic components that use the superconductivity effect could make all this possible.
However, superconductivity is primarily known at very low temperatures of, for example, minus 250'C. This prevents a broad commercial use. Therefore, superconducting compounds that function at room temperature and at normal pressure are being highly researched by different materials.
The ZeloCon technology for the realization of superconductivity at room temperature is based only on carbon. No other chemicals are necessary. It is only through the carbon structure patented by ZeLoCon that superconductivity with carbon at room temperature is possible.
ZeLoCon GmbH - Zero Loss Conductor
Founded: 1993 - by Prof. P. Esquinazi, L. Turck, M. Disselkamp, P. Mirliauntas, A. Rönisch,
more than 130 years Electronics background plus 80 years Technology networking
Vision: Room-temperature superconductivity for a new generation of microelectronics
Mission: Researching and industrializing room-temperature superconductivity
Basis: Professor Esquinazi has been researching the superconducting effects at certain stacking faults within the graphite structure at room temperature at the University of Leipzig for many years.
Diverse use cases and market potential
The systematic production of superconductor tracks on semiconductor layers, including less scrap and rework.
Medical devices drastically reduced in cost and dimensions, e.g. for brain examinations (EEG) through the production of highly sensitive magnetometers based on the Josephson effect.
Compared to previous magnetic field sensors for industrial and commercial applications, superconducting components for magnetic field detection are much simpler.
Manufacture of controlled switches (transistors) and materials for antennas and other electronic systems for use at extremely high frequencies. Even higher data rates in telecommunications, but simplifications for imaging procedures in diagnostics and analytics are the beneficial effect of these components.
Status and next steps
Currently, the synthesis and characterization of certain stacking faults within graphite are being further studied by ZeLoCon with the support of universities laboratories. Investors are needed for further development of the necessary experimental methods for a systematic preparation of the stacking faults.
After the completion of this work, the industrial implementation of the technology will take place in cooperation with manufacturers of semiconductormanufacturing equipment. With the equipment available, semiconductor companies will be able to incorporate superconducting graphite structure faults into their products. As a result, extremely functionally improved semiconductor products will be placed on the market.
With the production of superconductors as well as with the granting of licenses for the production and use of these superconductors, ZeLoCon will support customers in the field of semiconductor technology, medical technology, mobility and many other industries to use superconductivity commercially