Bioelectronics have made strides in improving clinical diagnostics and precision medicine.
The potential of bioelectronics for bidirectional interfacing with biology through continuous …

Functional emulation of biological synapses using electronic devices is regarded as the first
step toward neuromorphic engineering and artificial neural networks (ANNs). Electrolyte …

The effective mimicry of neurons is key to the development of neuromorphic electronics.
However, artificial neurons are not typically capable of operating in biological environments …

Abstract Poly (3, 4-ethylenedioxythiophene) doped with poly (styrenesulfonate), PEDOT:
PSS, has been utilized for over two decades as a stable, solution-processable hole …

Depressive short‐term synaptic plasticity functions are implemented with a simple polymer
poly (3, 4ethylenedioxythiophene): poly (styrene sulfonate)(PEDOT: PSS) organic …

Here we provide a perspective concept of neurohybrid memristive chip based on the
combination of living neural networks cultivated in microfluidic/microelectrode system, metal …

Abstract Information processing in the brain takes place in a network of neurons that are
connected with each other by an immense number of synapses. At the same time, neurons …

Organic electrochemical transistors (OECTs) have emerged as an enabling technology for
the development of a variety of applications ranging from digital logic circuits to biosensors …

Transistor‐based ion sensors have evolved significantly, but the best‐performing ones rely
on a liquid electrolyte as an internal ion reservoir between the ion‐selective membrane and …

Synaptic plasticity functions play a crucial role in the transmission of neural signals in the
brain. Short-term plasticity is required for the transmission, encoding, and filtering of the …