Heat is an abundant but often wasted source of energy. Thus, harvesting just a portion of this
tremendous amount of energy holds significant promise for a more sustainable society …

The urgent need for consistent, reliable, ecofriendly, and stable power sources drives the
development of new green energy materials. Thermoelectric (TE) materials receive …

Single-walled carbon nanotubes (SWCNTs)-based thermoelectric materials, valued for their
flexibility, lightweight, and cost-effectiveness, show promise for wearable thermoelectric …

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

Low-dimensional materials have recently attracted much interest as thermoelectric materials
because of their charge carrier confinement leading to thermoelectric performance …

A study of 1304 data points collated over 266 papers statistically evaluates the relationships
between carbon nanotube (CNT) material characteristics, including: electrical, mechanical …

Net zero refers to the balance of the amount of greenhouse gas emissions produced and the
amount removed from the atmosphere, and many companies and states have committed …

Waste energy harvesting can contribute to the increase of the efficiency of many industrial
processes, which consume energy to produce valuable products. Among all the wasted …

Thermoelectric generators with flexibility and high performance near 300 K have the
potential to be employed in self-supporting power supplies for Internet of Things (IoT) …

Earth-abundant molybdenum disulfide (MoS2) shows a high application potential in
thermoelectric (TE) field owing to its high Seebeck coefficient. However, the main obstacle to …