Utilizing a combination of low-temperature scanning tunneling microscopy/spectroscopy
(STM/STS) and electronic structure calculations, we characterize the structural and …

Moiré patterns on two-dimensional van der Waals heterostructure can give rise to unique
electronic and transport properties. In this work we report a theoretical investigation of Moiré …

Altermagnetism is a newly predicted type of magnetism with spin-polarized electron bands
but zero net magnetization. Here, we investigate the impurity scattering effect in an …

We develop theory models for both ballistic and disordered superconducting monolayer
black phosphorus devices in the presence of magnetic exchange field and stress. The …

Tuning the band gap plays an important role for applicability of 2D materials in the
semiconductor industry. The present paper is a theoretical study on the band gap …

Understanding the local electronic properties of individual defects and dopants in black
phosphorus (BP) is of great importance for both fundamental research and technological …

Motivated by recent experimental progress, we study the effect of mechanical deformations
on the superconducting pairing symmetries in monolayer black phosphorus (MBP). Starting …

In this work, we present an atomistic first-principles framework for modeling the low-
temperature electronic and transport properties of disordered two-dimensional (2D) …

This work presents a theoretical demonstration of the Aharonov-Bohm (AB) effect in
monolayer phosphorene nanorings (PNRs). Atomistic quantum transport simulations of …

We address the electronic structure of the surface states of topological-insulator thin films
with embedded local nonmagnetic and magnetic impurities. Using the T-matrix expansion of …