We investigated the impact of singly occupied molecular orbital (SOMO) energy on the n-
doping efficiency of benzimidazole derivatives. By designing and synthesizing a series of …

Achieving high electrical conductivity and thermoelectric power factor simultaneously for n‐
type organic thermoelectrics is still challenging. By constructing two new acceptor‐acceptor …

The discovery of air-stable n-dopants for organic semiconductor materials has been
hindered by the necessity of high-energy HOMOs and the air sensitivity of compounds that …

Molecular doping is a powerful yet challenging technique for enhancing charge transport in
organic semiconductors (OSCs). While there is a wealth of research on p‐type dopants …

Doped polymer semiconductors are actively studied for opto-and micro-electronic
applications including thermoelectric generators, where a high electrical conductivity is a …

Doping of organic semiconductors is a powerful tool to optimize the performance of various
organic (opto) electronic and bioelectronic devices. Despite recent advances, the low …

Electron transport is critical to the use of n-type semiconducting polymers in diverse
electronic and optoelectronic devices. Herein, we combine measurements of field-effect …

A common way of determining the majority charge carriers of pristine and doped
semiconducting polymers is to measure the sign of the Seebeck coefficient. However, a …

Doping is a powerful technique for engineering the electrical properties of organic
semiconductors (OSCs), yet efficient n‐doping of OSCs remains a central challenge. Herein …

Poly (benzodifurandione)(n-PBDF) has garnered significant interest as it displays the
highest reported n-type electrical conductivity among π-conjugated polymers. Earlier …