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A General Cation-Exchange Approach to Magnetic Intercalation Superlattices (Case No. 2025-9A1)

Summary: UCLA researchers in the Department of Chemistry have developed a general cation-exchange approach for tunable magnetic intercalation superlattices. Background: Layered materials are crucial for engineering quantum and magnetic phenomena at the atomic scale. Magnetic intercalation superlattices, a type of layered materials, enable tunable...

Published: 7/24/2025 | Inventor(s): Xiangfeng Duan, Yu Huang, Jingxuan Zhou

Keywords(s): Advanced Computing / AI, advanced packaging, Cation exchange, doping control, Fabrication Technologies, ferromagnetic semiconductor, layered materials, magnetic coupling, magnetic intercalation superlattices, quantum communication, Quantum Computer, quantum computing materials, Quantum Dot, quantum error correction (QEC), quantum incompressible fluid, quantum key, quantum network, quantum processing, quantum processor, room-temperature superconductivity, spin textures, spintronics, trapped ion quantum processor, tunable ferromagnetism, Van der Waals, Van Der Waals Force, VIN group metals

Category(s): Materials, Materials > Nanotechnology, Materials > Functional Materials, Materials > Semiconducting Materials, Materials > Fabrication Technologies, Materials > Metals, Optics & Photonics