Paterson author on Nature article

Alexandra "Zan" Paterson, assistant professor with joint appointments in materials engineering and electrical engineering, recently authored, "Improved organic electrochemical transistor stability using solvent degassing and chemical doping," published in Nature Electronics, a monthly online journal from Nature that publishes original research in the field of electronics. 

Abstract: 

Organic mixed ionic–electronic conductors (OMIECs), which can be used to build organic electrochemical transistors (OECTs), are of potential use in flexible, large-area and bioelectronic systems. Although hole-transporting p-type OMIECs are susceptible to oxidation, and oxygen leads to OECT instability, it is unclear whether oxygen also behaves as an uncontrolled p-dopant. We show that oxygen dissolved in a solvent can act as a p-dopant in OMIECs and OECTs by filling traps to enable effective electrochemical doping. To address the fact that the presence of oxygen simultaneously jeopardizes OECT stability, we develop a two-step strategy in which we first degas the solvent, and then dope the OMIEC in a controlled manner using a chemical dopant. Our approach improves the stability of both p-type and n-type OECTs, while increasing the on–off ratio, tuning the threshold voltage and enhancing the transconductance, charge carrier mobility, and the µC* product—that is, the product of mobility and the volumetric capacitance.

Read article here: https://www.nature.com/articles/s41928-024-01297-8