Printable organic field effect transistors (OFETs) have been investigated for more than 20
years, aiming at various emerging applications including flexible/wearable electronics …

Biological signals generated during various biological processes are critically important for
providing insight into the human physiological status. Recently, there have been many great …

Stretchable electronics are essential for the development of intensely packed collapsible
and portable electronics, wearable electronics, epidermal and bioimplanted electronics, 3D …

Organic field-effect transistors (OFETs) have been proposed beyond three decades while
becoming a research hotspot again in recent years because of the fast development of …

While organic materials have demonstrated industry-leading performances in a wide array
of electronic applications (including OLEDs and OPVs), their use for integration into …

Lightweight, flexible, and conformal bioelectronics are essential for wearable technologies.
This paper introduces 270 nm thin organic electronics amplifying circuits that are self …

Current electronics are driven by advanced microfabrication for fast and efficient information
processing. In spite of high performance, these wafer-based devices are rigid, non …

Ultrathin organic thin‐film transistors (OTFTs) have received extensive attention due to their
outstanding advantages, such as extreme flexibility, good conformability, ultralight weight …

Stretchability is a prerequisite for electronic skin devices. However, state‐of‐the‐art
stretchable thin‐film transistors do not possess sufficiently low operating voltages and good …

Electronic devices that can integrate with soft biological tissue like the surface of a human
body have a great potential for applications in health monitoring, safety monitoring …