There is a rapidly growing demand for self-powered technologies in wearable electronic
devices that can be integrated with the human body to accomplish various functions …

Wearable thermoelectric generators (TEGs) emerge as a viable renewable energy source,
which directly convert the heat dissipated from human skin into electricity. Extensive reviews …

Thermophysiological comfort in humans is sought universally but seldom achieved due to
biological and physiological variances. Most people in developed parts of the world rely on …

Wearable electronics for personal healthcare and environment awareness are attracting
more and more attentions and gaining wide market acceptance. Wearable monitoring …

Fiber‐based flexible thermoelectric (TE) generators are highly desirable due to their
capability to convert thermal energy into electricity and their potential applications in …

Solar and thermal energy conversion are two major renewable energy technologies highly
sought after in the past two decades by academia, industry, and policymakers. Besides the …

Thermoelectric devices possess enormous potential to reshape the global energy
landscape by converting waste heat into electricity, yet their commercial implementation has …

Since prehistoric times, textiles have served an important role–providing necessary
protection and comfort. Recently, the rise of electronic textiles (e-textiles) as part of the larger …

Using thermoelectric generators to convert waste heat into electricity is a renewable
alternative to fossil energy sources. As thermoelectric materials are the main element of …

Thermoelectricity offers a promising solution for reducing carbon emissions by efficiently
converting waste heat into electrical energy. However, high-performance thermoelectric …