Abstract Internet-of-thing (IoT) is an assembly of devices that collect and share data with
other devices and communicate via the internet. This massive network of devices, generates …

Thermoelectric materials could transform thermal energy to electrical energy, and they have
come into view as a possible new energy to replace fossil energy. Layered oxide …

Aliovalent do** is a way to optimize the electrical properties of semiconductors, but its
impact on the phonon structure and propagation is seldom considered properly. Here we …

Ambient energy harvesting has great potential to contribute to sustainable development and
address growing environmental challenges. Converting waste energy from energy-intensive …

Abstract Layer‐structured GeSb2Te4 is a promising thermoelectric candidate, while its
anisotropy of thermal and electrical transport properties is still not clear. In this study, Ge1 …

The insensitivity of thermoelectric (TE) performance to defects and impurities induced by off‐
stoichiometry or low‐purity raw elements is crucial for the low‐cost mass production of highly …

Bismuth‐telluride‐based alloy is the sole thermoelectric candidate for commercial
thermoelectric application in low‐grade waste heat harvest near room temperature, but the …

Nanostructuring is a well-established approach to improve the thermoelectric behavior of
materials. However, its effectiveness is restricted if excessively small particle sizes are …

Understanding the relationship between the crystal structure, chemical bonding, and lattice
dynamics is crucial for the design of materials with low thermal conductivities, which are …

The double perovskites became appealing over time for solar cells and optoelectronic
applications due to their extraordinary optical and transport properties. Here, we investigate …