QuantenDots

Quantendots are a class of nanoscale semiconductor particles designed to host and manipulate quantum states for information processing and sensing. In contrast to conventional quantum dots, quantendots are engineered with emphasis on quantum coherence and compatibility with scalable platforms, such as photonic circuits and superconducting interfaces. They typically range from 2 to 10 nanometers in diameter and are often fabricated as core–shell structures to minimize surface-related decoherence. Common material families include II–VI and III–V compounds, with core/shell compositions chosen to optimize emissive properties and spin-coherence times. Surface ligands and isotopic purification are used to reduce environmental noise and nuclear spin interactions.

Quantendots are produced by colloidal synthesis or vapor-phase methods, followed by surface passivation and ligand exchange

Potential applications include qubits for quantum computing, single-photon sources for quantum communication, and high-sensitivity quantum sensors

Key challenges include achieving long coherence times at practical temperatures, scalable and reproducible production, and integration

See also quantum dot, spin qubit, photonic crystal, quantum information science.