DNA origami precisely positions single-photon emitters for quantum technologies

A Skoltech-led international team achieved breakthrough precision in positioning single-photon emitters using DNA origami, enabling nanoscale control for quantum light sources. The method leverages DNA self-assembly to place molecules on ultrathin materials like 2D semiconductors, creating highly efficient quantum emitters critical for photonic applications. Published in Light: Science & Applications (March 2026), the research demonstrates sub-10-nanometer accuracy, surpassing conventional fabrication limits for quantum devices. This advancement accelerates development of compact, scalable components for quantum computers and ultra-secure communication networks by integrating biomolecular techniques with quantum photonics. The hybrid approach merges bottom-up DNA nanotechnology with top-down quantum material engineering, offering a versatile platform for next-generation quantum technologies.