Bulk nanostructuring has been one of the leading strategies employed in the past decade for
the optimization of thermoelectric properties by introducing strong grain boundary scattering …

Thermoelectric materials and their devices can realize the solid-state energy conversion
between thermal and electrical energy, therefore serving as a promising alternative to …

Driven by the intensive efforts in the development of high‐performance GeTe
thermoelectrics for mass‐market application in power generation and refrigeration, GeTe …

Thermoelectric energy conversion is an all solid-state technology that relies on exceptional
semiconductor materials that are generally optimized through sophisticated strategies …

Low-grade heat (below 373 kelvin) is abundant and ubiquitous but is mostly wasted
because present recovery technologies are not cost-effective. The liquid-state thermocell …

BACKGROUND Heat and electricity are two forms of energy that are at opposite ends of a
spectrum. Heat is ubiquitous, but with low quality, whereas electricity is versatile, but its …

The past two decades have witnessed the rapid growth of thermoelectric (TE) research.
Novel concepts and paradigms are described here that have emerged, targeting superior TE …

There has been a renaissance of interest in exploring highly efficient thermoelectric
materials as a possible route to address the worldwide energy generation, utilization, and …

Exhaustive attempts are made in recent decades to improve the performance of
thermoelectric materials that are utilized for waste heat‐to‐electricity conversion. Energy …

Abstract The pillars of Green Chemistry necessitate the development of new chemical
methodologies and processes that can benefit chemical synthesis in terms of energy …