Organic Spintronics as Molecular Spin Qubits
Organic spin sublevels, |-1/2> and |+1/2>, can be set into the linear superposition state and therefore be harnessed as spin qubits. The synthetic flexibility of organic molecules allows rich chemical modifications to achieve desired qubit properties, such as prolonged coherence times for improved quantum computation. These molecular spin qubits can possess optical accessibility for more sensitive qubit information acquirement. Practical QIS operations such as quantum sensing of external electric field can be executed. The synthetic scalability also allows the manufacture of adaptive qubit arrays.