Advanced lithium‐ion batteries (LIBs) are crucial to portable devices and electric vehicles.
However, it is still challenging to further develop the current anodic materials such as …

In this study, we use the effective mass approximation and the finite difference method to
investigate the optoelectronic properties of a donor impurity confined in a wedge-shaped …

This paper presents a thorough numerical investigation focused on optimizing the efficiency
of quantum-well intermediate-band solar cells (QW-IBSCs) based on III-nitride materials …

Abstract Zinc Tin Germanium Nitride (ZnSn x Ge 1-x N 2) alloys, which consist of the ternary
nitrides ZnSnN 2 and ZnGeN 2, are notable for being earth-abundant materials that offer …

The model system of the InGaN/GaN quantum wells (QWs), based on the first principles
calculation, was chosen to understand the underlying mechanism of interfacial polarization …

Solar cells that are based on the implementation of quantum dots in the intrinsic region, so-
called intermediate band solar cells (IBSCs), are among the most widely used concepts …

This study proposes a thin-film solar cell composed of periodic plasmonic titanium
nanoparticles (Ti NPs) and indium phosphide (InP) thin films. By adjusting the size and …

In this paper, by using the variational method and the effective mass approximation, we have
studied the diamagnetic and physical properties of an exciton confined in a cylindrical …

Photovoltaic cells, based on quantum dots implementation in the intrinsic region, are one of
the most widely studied concepts nowadays to obtain a high solar conversion efficiency. The …

Abstract CuGa Se 2 (CGSe), CuIn Se 2 (CISe), and Cu (In, Ga) Se 2 (CIGSe) are highly
attractive chalcopyrite materials due to their exceptional optoelectronic properties, which …