The organic field‐effect transistor (OFET) is the basic building block of integrated circuits.
The charge carrier mobility and operating frequency of OFETs have continued to increase; …

Organic thermoelectricity is a blooming field of research that employs organic (semi)
conductors to recycle waste heat through its partial conversion to electrical power. Such a …

Conjugated polymers enable the production of flexible semiconductor devices that can be
processed from solution at low temperatures. Over the past 25 years, device performance …

Organic semiconductor materials have been promising alternatives to their inorganic
counterparts in several electronic applications such as solar cells, light emitting diodes, field …

Conducting polymer thin films containing inherent structural disorder exhibit complicated
electronic, transport, and thermoelectric properties. The unconventional power-law relation …

Carrier thermoelectric-transport theory has recently become of growing interest and
numerous thermoelectric-transport models have been proposed for organic semiconductors …

The field of organic electronics has profited from the discovery of new conjugated
semiconducting polymers that have molecular backbones which exhibit resilience to …

Organic thermoelectric materials, which can transform heat flow into electricity, have great
potential for flexible, ultra‐low‐cost and large‐area thermoelectric applications. Despite …

Semiconducting polymers have the potential to be used in thermoelectric devices that are
lightweight, flexible, and fabricated using solution processing. Because of the structural and …

A fundamental understanding of charge transport in polymeric semiconductors requires
knowledge of how the electrical conductivity varies with carrier density. The thermopower of …