Despite over a decade of intense research efforts, the full potential of two-dimensional
transition-metal dichalcogenides continues to be limited by major challenges. The lack of …

This review paper delves into the realm of hybrid cellulose-based materials and their
applications in 2D nano-delivery systems. Cellulose, recognized for its biocompatibility …

The few-body problem for N= 4 fermionic charge carriers in a double-well moiré quantum
dot (MQD), representing the first step in a bottom-up strategy to investigate formation of …

Abstract Two-dimensional (2D) materials such as graphene, transition metal
dichalcogenides, and nanosheets have captured significant interest due to their exceptional …

We demonstrate a switchable electron shell structure in a bilayer graphene quantum dot by
manipulating the trigonal war** effect upon electrical gating. Under a small perpendicular …

The few-body problem (with N≤ 6 fermionic charge carriers) in isolated moiré quantum dots
(MQDs) in transition metal dichalcogenide (TMD) bilayer materials with integer fillings, ν≥ 2 …

Introducing quantum confinement has uncovered a rich set of interesting quantum
phenomena and allows one to directly probe the physics of confined (quasi-) particles. In …

Two-dimensional (2D) heterostructures have recently attracted interest as candidate
materials for classical optoelectronics and in quantum information technology. Despite …

Pauli blockade is a fundamental quantum phenomenon that also serves as a powerful tool
for qubit manipulation and readout. While most systems exhibit a simple even-odd pattern of …

Researchers in condensed matter physics are currently exploring new materials for specific
use in various applications. The peculiar properties of quantum materials (QMs) have …