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 …

Thanks to the combined efforts of scientists in several research fields, the preceding decade
has witnessed considerable progress in the use of conjugated polymers as emerging …

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 …

Thermoelectricity offers a sustainable path to recover and convert waste heat into readily
available electric energy, and has been studied for more than two centuries. From the …

Conjugated polymers and related processing techniques have been developed for organic
electronic devices ranging from lightweight photovoltaics to flexible displays. These …

The growing technological importance of conducting polymers makes the fundamental
understanding of their charge transport extremely important for materials and process …

Abstract Poly (3, 4-ethylenedioxythiophene): poly (styrene sulfonate)(PEDOT: PSS) is the
most successful conducting polymer in terms of practical application. It possesses many …

The abundance of solar thermal energy and the widespread demands for waste heat
recovery make thermoelectric generators (TEGs) very attractive in harvesting low‐cost …

The study of thermoelectric materials spans condensed matter physics, materials science
and engineering, and solid-state chemistry. The diversity of the participants and the inherent …

Conducting polymers (CPs) are an innovative class of materials recognized for their high
flexibility and biocompatibility, making them an ideal choice for health monitoring …