The long-standing popularity of thermoelectric materials has contributed to the creation of
various thermoelectric devices and stimulated the development of strategies to improve their …

Textiles have been concomitant of human civilization for thousands of years. With the
advances in chemistry and materials, integrating textiles with energy harvesters will provide …

Conducting polymers have drawn considerable attention in the field of wearable and
implantable thermoelectric devices due to their unique advantages, including availability …

Recent advances in nanostructured materials and unconventional device designs have
transformed the bioelectronics from a rigid and bulky form into a soft and ultrathin form and …

There is a growing demand for flexible and wearable next-generation electronic devices that
must be capable of bending and stretching under mechanical deformation. In this regard …

Stretchable thermoelectrics have recently attracted widespread attention in the field of self‐
powered wearable electronics due to their unique capability of harvesting body heat …

Organic thermoelectric (OTE) materials promise convenient energy conversion between
heat gradients and voltage with flexible and wearable power‐supplying devices at a low …

Organic thermoelectric (TE) materials capitalize on advantages such as low thermal
conductivity, low-cost, eco-friendly, versatile processability, light-weight, mechanical …

Conversion of waste heat to voltage has the potential to significantly reduce the carbon
footprint of a number of critical energy sectors, such as the transportation and electricity …

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 …