N-Type semiconductors for organic electrochemical transistor applications

Abstract

Over the last decade, the organic electrochemical transistor (OECT) has appeared as a powerful platform for developing organic bioelectronic applications such as electronic biosensors and neuromorphic devices. The rapidly growing interest in this field has spurred the development of new active bioelectronic materials that are tailor-made to fulfil the mixed ionic-electronic conduction requirements of the OECT. While p-type (hole-transporting) organic semiconductors quickly appeared with impressive mixed conduction properties, their electron-transporting counterparts, n-type organic semiconductors have lagged severely in terms of OECT performance metrics. Here, we review recent progress on the development of n-type organic semiconductors, including both small-molecule and polymer systems, for OECT applications and discuss the bioelectronic applications that have emerged from the materials development.