Thermoelectric films and periodic structures have particularly intriguing electrical and
thermal transport features due to their low dimensionality. As a result, they have piqued the …

Thermoelectrics is a research area that focuses on the development of high-performance
materials for direct thermal and electrical energy conversion in power generation and solid …

High-throughput materials science, formerly referred to as combinatorial materials science,
is a paradigm for materials discovery and optimization that relies on rapid, often parallelized …

Artificial intelligence (AI) approaches continue to spread in almost every research and
technology branch. However, a simple adaptation of AI methods and algorithms successfully …

Thermoelectric materials, which can convert waste heat into electricity or act as solid‐state
Peltier coolers, are emerging as key technologies to address global energy shortages and …

Thermoelectric oxide ceramics could play a significant role in waste heat recovery using
thermoelectric generators, accelerating clean energy generation and achieving net-zero …

A combinatorial film of the LaCo 1-x Cr x O 3 system was fabricated using the LaCoO 3 and
LaCrO 3 targets at the NIST Pulsed Laser Deposition (PLD) facility. As the ionic size of Cr 3+ …

Many worldwide scientists have concentrated on using waste heat recovery technology in
automotive applications because of increasingly strict fuel consumption. The thermoelectric …

High-throughput screenings are widely accepted for pharmaceutical developments for new
substances and the development of new drugs with required characteristics by evolutionary …

This project takes advantage of molecular dynamic simulation for the design of polymer
nanocomposites. The newly synthesized low-dimensional carbon nanomaterials show …