The improvement of living standards and the advancement of medical technology have led
to an increased focus on health among individuals. Detections of biomarkers are feasible …

Organic electrochemical transistors (OECTs) are electronic devices relying on electronic
materials that are stable in aqueous environments. OECTs leverage ionic solutions for their …

Organic artificial neurons operating in liquid environments are crucial components in
neuromorphic bioelectronics. However, the current understanding of these neurons is …

Organic transistors possess inherent advantages such as flexibility, biocompatibility,
customizable chemical structures, solution‐processability, and amplifying capabilities …

Organic electrochemical transistors (OECTs) are being researched for various applications,
ranging from sensors to logic gates and neuromorphic hardware. To meet the requirements …

The promising field of organic electronics has ushered in a new era of biosensing
technology, thus offering a promising frontier for applications in both medical diagnostics …

The development of soft and flexible devices for collection of bioelectrical signals is gaining
momentum for wearable and implantable applications. Among these devices, organic …

Green electronics made from degradable materials have recently attracted special attention,
because electronic waste (e‐waste) represents a serious threat to the environment and to …

The dissemination of sensors is key to realizing a sustainable,'intelligent'world, where
everyday objects and environments are equipped with sensing capabilities to advance the …

Organic semiconductors have great potential to revolutionize electronics by enabling flexible
and eco‐friendly manufacturing of electronic devices on plastic film substrates. Recent …