Graphene synthesized in a CVD reactor is a one-atom-thick carbon sheet combining exceptional electrical conductivity and mechanical strength for high-speed electronics and transparent conductors. Precise control of gas mix, temperature, and substrates lets you tune its thickness and defect levels for flexible sensors, thermal interfaces, and advanced energy-storage materials.
Diamond produced by our CVD reactors deliver unmatched hardness and superior thermal conductivity for cutting tools and heat management in high-power electronics. By tailoring growth parameters, you achieve optical purity and custom defect profiles ideal for precision optics, UV windows, and quantum sensing.
Graphene synthesized in a CVD reactor is a one-atom-thick carbon sheet combining exceptional electrical conductivity and mechanical strength for high-speed electronics and transparent conductors. Precise control of gas mix, temperature, and substrates lets you tune its thickness and defect levels for flexible sensors, thermal interfaces, and advanced energy-storage materials.
Diamond produced by our CVD reactors deliver unmatched hardness and superior thermal conductivity for cutting tools and heat management in high-power electronics. By tailoring growth parameters, you achieve optical purity and custom defect profiles ideal for precision optics, UV windows, and quantum sensing.
At Orion Industries, we’re engineering the next generation of room-temperature superconductors that carry electricity with zero resistance at ambient temperature. By eliminating the need for expensive cryogenic systems, our technology promises to revolutionize energy distribution. In transportation, our superconductors open the door to compact, affordable magnetic-levitation systems for ultra-fast rail and frictionless bearings in electric vehicles. We’re also integrating our materials into high-field electromagnets for more accessible MRI scanners, next-generation fusion reactor coils, and superconducting quantum processors that operate without complex cooling infrastructure—unlocking entirely new markets in healthcare, clean energy, and advanced computing.
Our fusion reactor design uses our superconductors and our w-pinch technology to make high density energy production a reality.