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

Strong electronic correlations are often associated with the proximity of a Mott-insulating
state. In recent years however, it has become increasingly clear that the Hund's rule …

Spintronics, or spin electronics, involves the study of active control and manipulation of spin
degrees of freedom in solid-state systems. This article reviews the current status of this …

Carbon nanotubes are a versatile material in which many aspects of condensed matter
physics come together. Recent discoveries have uncovered new phenomena that …

In the early 1970s, Wilson developed the concept of a fully nonperturbative renormalization
group transformation. When applied to the Kondo problem, this numerical renormalization …

Quantum transport is a diverse field, sometimes combining seemingly contradicting
concepts-quantum and classical, conduction and insulating-within a single nanodevice …

A review of coherent and collective quantum optical effects like superradiance and coherent
population trap** in mesoscopic systems is presented. Various new physical realizations …

Progress in the fabrication of nanometre-scale electronic devices is opening new
opportunities to uncover deeper aspects of the Kondo effect—a characteristic phenomenon …

Twisted van der Waals materials have been shown to host a variety of tunable electronic
structures. Here we put forward twisted trilayer graphene (TTG) as a platform to emulate …

Based on ab initio calculations we identify possible scenarios for the Kondo effect due to Co
adatoms on graphene. General symmetry arguments show that for magnetic atoms in high …