Polymer semiconductors composed of a carbon-based π conjugated backbone have been
studied for several decades as active layers of multifarious organic electronic devices. They …

Electronic do** in organic materials has remained an elusive concept for several
decades. It drew considerable attention in the early days in the quest for organic materials …

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 ecofriendly, stable, long‐lifetime power sources is driving the booming
market for miniaturized and integrated electronics, including wearable and medical …

Conjugated polymers promise inherently flexible and low-cost thermoelectrics for powering
the Internet of Things from waste heat,. Their valuable applications, however, have been …

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 …

Do** is essential to manipulate the electrical performance of both thermoelectric (TE)
materials and organic semiconductors (OSCs). Although organic thermoelectric (OTE) …

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 …

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 …

The field of organic electronics thrives on the hope of enabling low‐cost, solution‐processed
electronic devices with mechanical, optoelectronic, and chemical properties not available …