Magnesium-based energy materials, which combine promising energy-related functional
properties with low cost, environmental compatibility and high availability, have been …

Thermoelectric generator, which converts heat into electrical energy, has great potential to
power portable devices. Nevertheless, the efficiency of a thermoelectric generator suffers …

Flexible thermoelectric harvesting of omnipresent spatial thermodynamic energy, though
promising in low-grade waste heat recovery (< 100° C), is still far from industrialization …

Magnesium-based materials have been regarded as promising candidates for large-scale,
high-efficiency thermoelectric applications, owing to their excellent dimensionless figure of …

Abstract Mg3 (Sb, Bi) 2 alloys have recently been discovered as a competitive alternative to
the state‐of‐the‐art n‐type Bi2 (Te, Se) 3 thermoelectric alloys. Previous theoretical studies …

Thermoelectric modules can directly convert the waste heat released by plants or vehicles
into useful electricity, providing a clean and sustainable way to use fossil energy more …

Over the past two decades, we have witnessed a strong interest in develo** Mg3Sb2 and
related CaAl2Si2-type materials for low-and intermediate-temperature thermoelectric …

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

Since the first successful implementation of n-type do**, low-cost Mg 3 Sb 2-x Bi x alloys
have been rapidly developed as excellent thermoelectric materials in recent years. An …

The candidate thermoelectric compounds Mg3Sb2 and Mg3Bi2 show excellent performance
near ambient temperature, enabled by an anomalously low lattice thermal conductivity (κl) …