Electronic transport properties of single-molecule junctions have been widely measured by
several techniques, including mechanically controllable break junctions, electromigration …

In this paper, we explore quantum interference (QI) in molecular conductance from the point
of view of graph theory and walks on lattices. By virtue of the Cayley–Hamilton theorem for …

Electron transport across a molecular junction is characterized by an energy-dependent
transmission function. The transmission function accounts for electrons tunneling through …

An empirical observation of a relationship between a striking feature of electronic
transmission through a π-system, destructive quantum interference (QI), on one hand, and …

Large‐area molecular tunneling junctions comprising self‐assembled monolayers of redox‐
active molecules are described that exhibit two‐terminal bias switching. The as‐prepared …

Destructive quantum interference in aromatic hydrocarbons can be tuned using chemical
substituents; however, classical chemical intuition is not enough to explain the effects on …

We study both analytically and numerically the interaction between bound states in the
continuum (BICs) in 2D Fabry-Pérot (FP) resonators in waveguides with waveguide …

Destructive quantum interference (DQI) in single molecule electronics is a purely quantum
mechanical effect and is entirely defined by the inherent properties of the molecule in the …

In this study, we report our viewpoint of single molecular conductance in terms of frontier
orbitals. The orbital rule derived from orbital phase and amplitude is a powerful guideline for …

An exponential falloff with separation of electron transfer and transport through molecular
wires is observed and has attracted theoretical attention. In this study, the attenuation of …