Magnetic-field effects on the electronic transport properties of a carbon nanotube with a side-coupled magnetic impurity

We investigate the electronic transport properties of a deoxyribonucleic acid (DNA)-conjugated carbon nanotube (CNT) field effect transistor (CNTFET) device. The CNTFET exhibited a strong decrease of the drain current after DNA conjugation. The observed decrease can be explained by the formation of

The electron transport through a quantum-wire system in the presence of inhomogeneous magnetic fields is investigated theoretically. The system consists of two parallel quantum wires coupled by two ballistic windows, while the magnetic fields applied are uniform and equal in the two wires but vanish

The magnetic field influence on the outer-sphere electron transfer rate is analyzed within the framework of a dynamical model including exchange interaction between the transferred electron and a paramagnetic centre placed in the vicinity of an acceptor. It is shown that the rate can vary by 20%-30%