The ability to measure the behavior of a single molecule during a reaction implies the
detection of inherent dynamic and static disordered states, which may not be represented …

Fast, cheap, and reliable DNA sequencing could be one of the most disruptive innovations
of this decade, as it will pave the way for personalized medicine. In pursuit of such …

Two-dimensional materials (2DMs) have attracted tremendous research interest over the
last two decades. Their unique optical, electronic, thermal, and mechanical properties make …

The effectiveness of five different anchor groups for non‐covalent interfacing to graphene
electrodes are compared. A family of six molecules is tested in single‐molecule junctions …

We report a robust approach to fabricate single-molecule transistors with covalent electrode–
molecule–electrode chemical bonds, ultrashort (∼ 1 nm) molecular channels, and high …

Spin-crossover (SCO) molecules are versatile magnetic switches with applications in
molecular electronics and spintronics. Downscaling devices to the single-molecule level …

The high field transport characteristics of nanostructured transistors based on layered
materials are not only important from a device physics perspective but also for possible …

Graphene electrodes are promising candidates to improve reproducibility and stability in
molecular electronics through new electrode–molecule anchoring strategies. Here we report …

Remarkable advances in technology have enabled the manipulation of individual molecules
and the creation of molecular electronic devices utilizing single and ensemble molecules …

We report on the characterization of the electrical breakdown (EB) process for the formation
of tunneling nanogaps in single-layer graphene. In particular, we investigated the role of …