Thermoelectrics, enabling the direct energy conversion between electricity and heat, provide
alternatives for conventional power generation and refrigeration with considerable …

Reducing our overwhelming dependence on fossil fuels requires groundbreaking
innovations in increasing our efficiency in energy consumption for current technologies and …

Motivated by the recent observation of superconductivity with T c~ 80 K in pressurized
La3Ni2O7, we explore the structural and electronic properties of A 3Ni2O7 bilayer nickelates …

We explore the optical properties of La3Ni2O7 bilayer nickelates by using density functional
theory including a Coulomb repulsion term. Convincing agreement with recent experimental …

Metal-halide perovskites are rapidly emerging crystalline materials that are reasonably
preferred as leading aspirant for applications in optoelectronic and thermoelectric devices …

The double perovskite materials have attracted broad interest of researchers in recent years
because of their potential applications in renewable energy. This work comprehensively …

Periodic nanostructures, a group of nanomaterials consisting of single or multiple nano
units/components periodically arranged into ordered patterns (eg, vertical and lateral …

In contrast to the cuprates, where the proximity of antiferromagnetism (AFM) and
superconductivity is well established, first indications for AFM interactions in …

Based on first-principles calculations including a Coulomb repulsion term, we identify trends
in the electronic reconstruction of A NiO 2/SrTiO 3 (001)(A= Pr, La) and A CuO 2/SrTiO 3 …

Efficient generation and collection of photocarriers is a contradiction for most metal oxide
semiconductors. An approach to better understanding and controlling photocarriers' special …