The electron transport of different conical valleys is investigated in graphene with extended
line defects. Intriguingly, the electron with a definite incident angle can be completely …

This paper details an investigation of the influence of different disorders in two-dimensional
topological insulator systems. Unlike the phase transitions to a topological Anderson …

Using a tight-binding model, we study a line defect in graphene where a bulk energy gap is
opened by sublattice symmetry breaking. It is found that sublattice symmetry breaking may …

Non-equilibrium magneto-transport properties of a quantum dot dimer transistor are studied
in the presence of electron–electron and electron–phonon interactions and the interaction of …

We consider a single molecular transistor in which a quantum dot with local electron–
electron and electron–phonon interactions is coupled to two metallic leads, one of which …

We study quantum transport in a single molecular transistor in which the central region
consists of a single-level quantum dot and is connected to two metallic leads that act as a …

We investigate electronic transport through a vibrating quantum dot coupled to a normal and
a superconducting lead. It is shown that in such a system, the interplay of Cooper pairs and …

We investigate the nonequilibrium transport properties of a coupled quantum dot system
connected in parallel to two leads, including electron–vibron interaction. It is known that in …

Understanding of charge‐delocalization over two‐dimensional (2D) frameworks is a further
step in the path towards the development of molecular nanodevices and nanomaterials …

A single molecular transistor is considered in the presence of electron-electron interaction,
electron-phonon interaction, an external magnetic field and dissipation. The quantum …