Electronic do** in organic materials has remained an elusive concept for several
decades. It drew considerable attention in the early days in the quest for organic materials …

Materials that efficiently transport and couple ionic and electronic charge are key to
advancing a host of technological developments for next-generation bioelectronic …

Electronically interfacing with the nervous system for the purposes of health diagnostics and
therapy, sports performance monitoring, or device control has been a subject of intense …

The present review “Iron Catalysis in Organic Synthesis” covers the literature until the end of
June 2014 and represents a comprehensive update of a previous article published by Bolm …

The electronics surrounding us in our daily lives rely almost exclusively on electrons as the
dominant charge carrier. In stark contrast, biological systems rarely use electrons but rather …

The organic electrochemical transistor (OECT) is a device capable of simultaneously
controlling the flow of electronic and ionic currents. This unique feature renders the OECT …

In this review, PEDOT–PSS is mainly a commercially available PEDOT–PSS, which is a
water‐dispersible form of the intrinsically conducting PEDOT doped with the water‐soluble …

Conjugated polymers (CPs), as exemplified by polypyrrole, are intrinsically conducting
polymers with potential for development as soft actuators or “artificial muscles” for numerous …

Durable, electrically conducting yarns are a critical component of electronic textiles (e-
textiles). Here, such yarns with exceptional wear and wash resistance are realized through …

The field of organic mixed ionic‐electronic conductors (OMIECs) has gained significant
attention due to their ability to transport both electrons and ions, making them promising …