What does your company do? 

We work on development of novel high temperature and room temperature superconducting materials and their synthesis methods using a novel computational HTS model.

What problem do you solve? 

Room temperature superconductivity would be a massive scientific breakthrough, allowing for advances like efficient power grids that can transmit electricity without losses, high-speed, energy-efficient levitating trains, and faster, smaller and more efficient computers and medical imaging technologies. It could even be the key to tokamak reactors that bust open fusion energy.

Its applications from production of large amount of low cost clean electrical energy to almost every application of electricity and magnetic field make it a novel valuable patent with a very large industrial applications around the world. 

How do you solve this problem? 

In last years I did an individual research in contact with Princeton university on superconductivity mechanism and their lattice structures. Finally I could create a model using computational quantum methods that describe relation between structure and superconductivity temperature and is in a very good accordance with experimental data, and it’s able to predict trend of superconductivity temperature in Cuprate superconductors. I could predict a few ceramic formulas using this model that should be superconductor at room temperature.

The technical details and methods of synthesis and oxygen content control are complicated and expensive. We will apply my inorganic solid synthesis knowledge to produce these ceramics at lowest possible price. The new synthesis method that decrease production costs is interesting for producers of this type of materials.

What is the key innovation? 

Potential room temperature superconducting ceramic formula.

High temperature superconductivity model that is capable to predict new superconducting materials formula and their Tc. 

A novel synthesis method for HTS ceramics. 

What is your target market and its size? 

Market size of superconducting materials in 2022 was more than 5 billion dollars and it will increase by thousands of time when it happens at room temperature to become a trillion dollars market – some of applications of these materials are as below.

Clean electrical energy production and transfer (trillion dollars)

Electric motors for electric cars, trains, airplanes (multi billion dollars)

Electricity storage using magnetic field (multi billion dollars)

Laboratory and medical devices such as NMR, MRI, etc (multi billion dollars).

All industries that use electricity and electrical magnets (multi billion dollars)

Quantum computers (trillion dollars)

Why now is a good timing for your business?  

Energy and global warming issues, plus electric transportation have increased demand for these materials.