For decades, the widespread application of thermoelectric generators has been plagued by
two major limitations: heat stagnation in its legs, which limits power conversion efficiency …

Research interest in the development of real‐time monitoring of personal health indicators
using wearable electrocardiographic systems has intensified in recent years. New advanced …

As one promising low-temperature thermoelectric material, Bi 2 Te 3 suffers from high carrier
concentrations beyond the optimal value contributed by excess Te vacancies. In this study …

Traditional inorganic thermoelectric materials exhibit excellent thermoelectric performance
but poor flexibility. As a new type of flexible inorganic thermoelectric material, Ag 2 S owns a …

Intensive efforts have been conducted to realize the reliable interfacial joining of
thermoelectric materials and electrode materials with low interfacial contact resistance …

Driven by materials science development, the thermoelectric performance has been
enhanced. However, only increasing the figure of merit to enhance the thermoelectric …

Polycrystalline SnSe materials with ZT values comparable to those of SnSe crystals are
greatly desired due to facile processing, machinability, and scale-up application. Here …

Constructing nanostructured composite architectures has been considered as an effective
strategy to reduce the lattice thermal conductivity (κL) and enhance the dimensionless figure …

Nanoporous materials possess low thermal conductivities derived from effective phonon
scatterings at grain boundaries and interfaces. Thus nanoporous thermoelectric materials …

Fiber-based thermoelectric materials have received increased attention as they are light
weight and can be sewn and woven for portable and wearable thermoelectric generators. In …