Unleashing
the power of superconductivity
At ZELOCON GmbH, we explore and harness the power of superconductivity to redefine what is technically possible. Our mission is to transform advanced materials and electronic systems through innovative, room-temperature superconductive solutions that pave the way for ultra-efficient and sustainable technologies.
Superconductivity is one of the most fascinating phenomena in modern physics — the complete disappearance of electrical resistance and the expulsion of magnetic fields at specific conditions. ZELOCON’s proprietary approach, based on rearranged graphite structures, unlocks new superconducting effects that operate under practical, real-world conditions. This breakthrough allows for next-generation magnetic sensors, quantum computing components, and energy-saving electronic devices.
Our research and development teams work tirelessly to refine the structural dynamics of carbon-based materials, enabling superconductivity at previously unattainable temperatures. The result: scalable, stable, and commercially viable superconducting materials that can revolutionize entire industries — from medical imaging and aerospace engineering to renewable energy and industrial automation.
With DEKRA-certified processes, patented material technologies, and a commitment to scientific excellence, ZELOCON GmbH stands at the forefront of the superconductivity revolution.
Experience how the power of superconductivity drives the future of efficient electronics and intelligent energy systems.
Our Vision
Unleashing electrical current for powerful electronics & sensors that significantly improve people’s daily lives.
Our Mission
Provide groundbreaking technologies, that push the boundaries of today’s electronics, reduce environmental impact and create new economic opportunities.
Transforming magnetic
field detection
Superconductivity at room temperature in magnetic field detection creates an entirely new space of opportunity for medical diagnosis through higher precision and real-time surveillance.
Transforming
superconducting sensors
Superconductivity based sensors enhance stability, quality and ultra low noise at high temperatures with no cooling and a significantly smaller size compared to similar technologies.
Transforming semiconductors
Superconductivity at room temperature uses the broadly available graphite, a 100% biocompatible material. The graphite-based devices do not require rare-earths.
Working principle
Our groundbreaking, patented approach, builds on a rearranged graphite crystal structure, in which superconductivity is located.
The ZELOCON-technology utilizes two-dimensional superconducting interfaces.