Electronic doping 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 …

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 …

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 …

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 …

Organic field-effect transistors hold the promise of enabling low-cost and flexible electronics.
Following its success in organic optoelectronics, the organic doping technology is also used …

In this paper, we review recent advances in the development of flexible thermoelectric
materials and devices for wearable human body-heat energy harvesting applications. We …

Thermoelectric materials can be used as the active materials in thermoelectric generators
and as Peltier coolers for direct energy conversion between heat and electricity. Apart from …

N-doping of conjugated polymers either requires a high dopant fraction or yields a low
electrical conductivity because of their poor compatibility with molecular dopants. We …

The understanding and applications of organic semiconductors have shown remarkable
progress in recent years. This material class has been developed from being a lab curiosity …