Archer Materials (ASX:AXE) has made significant advancements in its 12CQ quantum project. The company has developed a new device design in collaboration with Queen Mary University of London. This innovation uses graphene to achieve electrical contact with carbon nanosphere spin material. The development marks a crucial step towards practical applications of quantum technology.
Archer Materials has achieved a noteworthy milestone in its 12CQ quantum project by developing a new device architecture that observes the 'Coulomb Blockade' phenomenon at room temperature. This collaboration with Queen Mary University of London enhances control over electron behavior, essential for quantum device operation. Future tests are planned at millikelvin temperatures to refine these findings. Additionally, Archer's p-ESR chip, developed with EPFL, has measured significant electron spin lifetimes, suggesting expanded applications in imaging, sensing, and communication. Archer continues to advance its semiconductor technology with global partnerships, aiming for impactful deployment across various industries.
The significant progress we have made in controlling electrons and readout demonstrations is contributing to the development of our quantum computing chip and expanding potential applications.