N-type organic mixed ion-electron conductors (OMIECs) are a unique class of organic
materials, capable of both transporting and coupling cations and electrons. While important …

Poly (3, 4-ethylenedioxythiophene) doped with poly (styrene sulfonate)(PEDOT: PSS) is
considered a conducting polymer with the biggest prospects in the field of organic (bio) …

Polymeric organic mixed ionic–electronic conductors underpin several technologies in
which their electrochemical properties are desirable. These properties, however, depend on …

The development of devices based on organic electrochemical transistors (OECTs) relies on
the rational design of high‐performing organic mixed ionic‐electronic conductors (OMIECs) …

Charge dynamics in disordered media is described invariably assuming that the energy
landscape for hop** site energy is stationary. Within the same framework, the correlation …

Mixed ionic–electronic conductors (MIEC) are pivotal in advancing medical diagnostics,
therapeutic devices, and health monitoring solutions due to their unique properties that …

Despite the successful implementation of organic electrochemical based devices (OEDs),
fundamental processes that regulate their operations and sensing capabilities, specifically …

As the demand for multifunctional materials increases within the realm of electronics and
photonics, composites that support both ionic and electronic charge transports are emerging …

Abstract Conducting Polymer Dendrites (CPD) can engrave sophisticated patterns of
electrical interconnects in their morphology with low-voltage spikes and few resources: they …

Bioelectronics represents an interdisciplinary field merging biology with electronics with the
focus on develo** devices that interact with biological systems. Therefore, bioelectronics …