Abstract Electrolyte-gated transistors (EGTs), capable of transducing biological and
biochemical inputs into amplified electronic signals and stably operating in aqueous …

Recent research demonstrates the viability of organic electrochemical transistors (OECTs)
as an emergent technology for biosensor applications. Herein, a comprehensive summary is …

Organic electrochemical transistors (OECTs) represent an emerging device platform for next‐
generation bioelectronics owing to the uniquely high amplification and sensitivity to …

Bioelectronics focuses on the establishment of the connection between the ion-driven
biosystems and readable electronic signals. Organic electrochemical transistors (OECTs) …

Research on electrolyte-gated and organic electrochemical transistor (OECT) architectures
is motivated by the prospect of a highly biocompatible interface capable of amplifying …

The charged species inside biofluids (blood, interstitial fluid, sweat, saliva, urine, etc.) can
reflect the human body's physiological conditions and thus be adopted to diagnose various …

Transient electronics hold promise in reducing electronic waste, especially in applications
that require only a limited lifetime. While various degradable electronic and physical sensing …

Oligoether-functionalized dioxythiophene polymers are a promising class of materials for
electrochemical applications requiring aqueous electrolytes with rapid, reversible redox …

The gradual channel approximation forms the foundation for the analysis of field‐effect
transistors. It has been used to discuss transistors that are not necessarily based on the field …

The disruption of glucose (Glu) metabolism in the human body can lead to conditions such
as diabetes and hyperglycemia. Therefore, accurately determining Glu levels is crucial for …