Electric noise spectroscopy is a non-destructive and a very sensitive method for studying the
dynamic behaviors of the charge carriers and the kinetic processes in several condensed …

Quantum interference effects (QIEs) dominate the appearance of low-temperature resistivity
minimum in colossal magnetoresistance manganites. The T 1/2 dependent resistivity under …

In this paper, we review the 1/f-type noise properties of nanoelectronic devices focusing on
three demonstrative platforms: resistive switching memories, graphene nanogaps and single …

Graphene and related 2D material (GRM) thin films consist of 3D assembly of billions of 2D
nanosheets randomly distributed and interacting via van der Waals forces. Their complexity …

The discovery of iron-based superconductors paved the way for advanced possible
applications, mostly in high magnetic fields, but also in electronics. Among superconductive …

Granular aluminum oxide is an attractive material for superconducting quantum electronics.
However, its low-temperature normal state transport properties are still not fully understood …

The tetragonal phase of chromium (III) oxide, although unstable in the bulk, can be
synthesized in epitaxial heterostructures. Theoretical investigation by density-functional …

Two-dimensional materials, such as graphene, topological insulators, and two-dimensional
electron gases, represent a technological playground to develop coherent electronics. In …

NdNi 5 is an intermetallic compound with a bulk Curie temperature (T Curie) of 6–13 K.
While existing studies have focused on NdNi 5 crystals, amorphous thin-films of NdNi 5 are …

The voltage-spectral density SV (f) of the 2-dimensional electron gas formed at the interface
of LaAlO 3/SrTiO 3 has been thoroughly investigated. The low-frequency component has a …