Brain–computer interfaces—which allow direct communication between the brain and
external computers—have potential applications in neuroscience, medicine and virtual …

Flexible/stretchable electronics, which are characterized by their ultrathin design, lightweight
structure, and excellent mechanical robustness and conformability, have garnered …

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

Despite recent advances in materials and fabrication technologies, the development of
intrinsically stretchable electronic devices with large-area uniformity, low power …

Electronic devices for recording neural activity in the nervous system need to be scalable
across large spatial and temporal scales while also providing millisecond and single-cell …

Intrinsically stretchable organic photovoltaics (is-OPVs) with high efficiency and
transparency are a great challenge for wearable applications. Herein, we report a full …

As a stretchable seamless device, electronic skin (E-skin) has drawn enormous interest due
to its skin-like sensing capability. Besides the basic perception of force and temperature …

Optoelectronic devices with unconventional form factors, such as flexible and stretchable
light-emitting or photoresponsive devices, are core elements for the next-generation human …

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

The past several decades have witnessed great progress in high‐performance field effect
transistors (FET) as one of the most important electronic components. At the same time, due …