Single-molecule junctions–devices fabricated by electrically connecting a single molecule to
two electrodes–can respond to a variety of stimuli, that include electrostatic/electrochemical …

The most probable single-molecule conductance of each member of a series of 12
conjugated molecular wires, 6 of which contain either a ruthenium or platinum center …

The molecule–electrode interface can regulate both the efficiency and pathways of electron
transport through single-molecule junctions (SMJs). The electromechanics of the interface …

We report on the chemical design of chiral molecular junctions with stress‐dependent
conductance, whose helicity is maintained during the stretching of a single molecule …

The protonation of azulene derivatives with quantum interference effects is studied by the
conductance measurements of single-molecule junctions. Three azulene derivatives with …

In this minireview, we discuss important aspects of the various quantum phenomena (such
as quantum interference, spin-dependent charge transport, and thermoelectric effects) …

Assembling and prototy** circuits on a common breadboard scaffold is critical for
develo** functional single molecule electronic devices. To this end, we recently …

Combining the STM break junction technique and theoretical simulation, we report that the
presence of multiple anchoring sites leads to different configurations of single-molecule …

The ability to control single molecule electronic conductance is imperative for achieving
functional molecular electronics applications such as insulation, switching, and energy …

Predictive approaches and rules to connect and combine molecular circuit components are
required to realize the potential of molecular electronics and develop miniaturized integrated …