As promising candidate for mid-and far-infrared (MFIR) nonlinear optical (NLO) materials,
diamond-like (DL) chalcogenides have been extensively studied because of their …

Doping at particular sites is a common method for increasing the thermoelectric efficiency of
materials, by tuning carrier concentration and electronic structure. A secondary effect of …

The highly anisotropic single crystals of titanium disulfide (TiS2) have an n-type
semiconducting property with attractive thermoelectric (TE) performance above room …

Eco-friendly chalcohalide compounds composed by heavy elements are the interesting
candidates for thermoelectric energy conversion applications due to their intrinsically low …

An effective route towards commercializing thermoelectric devices is to explore materials
with high conversion efficiency. This study investigates the thermoelectric properties of ZnIn …

In this work, we have investigated the detailed structural, electronic, elastic, mechanical and
thermoelectric properties of pure (CdInSe 2) and defect (CdIn 2 Se 4) chalcopyrite-type …

Recently, the n-type TiS2/organic hybrid superlattice (TOS) was found to have efficient
thermoelectric (TE) properties above and near room temperature (RT). However, its TE …

Monolayer metal iodides are garnering widespread attention due to their ultralow lattice
thermal conductivity and their potential applications in the field of thermoelectrics. Here, we …

In this study, the detailed structural, electronic, mechanical, and thermoelectric properties of
ZnIn 2 Se 4 defect chalcopyrite semiconductor are carried out using density functional theory …

Polypyrrole (PPy) is a conducting polymer with attractive thermoelectric (TE) properties. It is
simple to fabricate and modify its morphology for enhanced electrical conductivity. However …