Humans rely increasingly on sensors to address grand challenges and to improve quality of
life in the era of digitalization and big data. For ubiquitous sensing, flexible sensors are …

The emergence of plastic electronics satisfies the increasing demand for flexible electronics.
However, it has caused severe ecological problems. Flexible electronics based on natural …

Efforts to design devices emulating complex cognitive abilities and response processes of
biological systems have long been a coveted goal. Recent advancements in flexible …

Bioadhesives have emerged as transformative and versatile tools in healthcare, offering the
ability to attach tissues with ease and minimal damage. These materials present numerous …

Shock‐induced low‐frequency vibration damage is extremely harmful to bionic soft robots
and machines that may incur the malfunction of fragile electronic elements. However, current …

Hydrogels have emerged as promising materials for flexible electronics due to their unique
properties, such as high water content, softness, and biocompatibility. In this perspective, we …

Structured piezoresistive membranes are compelling building blocks for wearable
bioelectronics. However, the poor structural compressibility of conventional microstructures …

In the era of Internet-of-things, many things can stay connected; however, biological
systems, including those necessary for human health, remain unable to stay connected to …

Brain-computer interfaces (BCIs) have attracted considerable attention in motor and
language rehabilitation. Most devices use cap-based non-invasive, headband-based …

Hydrogels are ideal building blocks to fabricate the next generation of electrodes for
acquiring high‐quality physiological electrical signals, for example, electroencephalography …