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 …

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 …

Artificial skin that simultaneously mimics sensory feedback and mechanical properties of
natural skin holds substantial promise for next-generation robotic and medical devices …

Intrinsically stretchable electronics with skin-like mechanical properties have been identified
as a promising platform for emerging applications ranging from continuous physiological …

Stretchable hybrid devices have enabled high-fidelity implantable,–and on-skin,–monitoring
of physiological signals. These devices typically contain soft modules that match the …

Over the years, researchers have made significant strides in the development of novel
flexible/stretchable and conductive materials, enabling the creation of cutting-edge …

Bioelectronic devices and components made from soft, polymer-based and hybrid electronic
materials form natural interfaces with the human body. Advances in the molecular design of …

Soft bioelectronic devices can be interfaced with anatomically curved organs, such as the
heart, brain and skin, to provide continuous analysis of physiological information. However …

The human body continuously emits physiological and psychological information from head
to toe. Wearable electronics capable of noninvasively and accurately digitizing this …

Flexible and stretchable biosensors can offer seamless and conformable biological–
electronic interfaces for continuously acquiring high‐fidelity signals, permitting numerous …