Hydrogels and their sensors are emerging as key players in biomedical electronics, offering
flexible, programmable structures and functions. Hydrogel-based sensors with stress–strain …

Inkjet printing technology is a convenient, high-speed, and high-precision manufacturing
tool, capable of achieving precise printing at both micro and nano scales. Composite …

Electronic devices based on conducting polymer hydrogels have emerged as one of the
most promising implantable bioelectronics for electrophysiological monitoring and diagnosis …

Hydrogel-enabled skin bioelectronics that can continuously monitor health for extended
periods is crucial for early disease detection and treatment. However, it is challenging to …

PEDOT: PSS hydrogel-based bioelectronic interfaces have gained significant attention in
various fields including biomedical devices, wearable devices, and epidermal electronics …

This review focuses on electroencephalogram (EEG) acquisition and feedback technology
and its core elements, including the composition and principles of the acquisition devices, a …

Microelectrode arrays (MEAs) are pivotal brain-machine interface devices that facilitate in
situ and real-time detection of neurophysiological signals and neurotransmitter data within …

Brain-computer interface (BCI) technology enables innovative communication between the
brain and machines, extending its impact beyond healthcare to various daily activities …

Wearable skin-contacting devices are extensively studied for their ability to provide
convenient and safe health monitoring. A key aspect that controls their performance are the …

Brain signal patterns generated in the central nervous system of brain-computer interface
(BCI) users are closely related to BCI paradigms and neural coding. In BCI systems, BCI …