Figure 1: Intrinsically stretchable transistor array as a core platform for functional skin electronics. The general fabrication process flow is designed to enable high device yield, device-to-device ...

Years ago, Tektronix could not justify an expensive, high-performance semiconductor operation solely for producing competition-defeating ICs for oscilloscopes, and formed a joint venture with Maxim ...

Jun'ya Tsutsumi (Researcher), Tatsuo Hasegawa (Principal Research Manager), and others of the Flexible Materials Base Team, the Flexible Electronics Research Center (Director: Toshihide Kamata), the ...

ANN ARBOR--Silicon integrated circuits, which are used in computer processors, are approaching the maximum feasible density of transistors on a single chip--at least, in two-dimensional arrays. Now, a ...

To make stretchable electronics, engineers must start with materials that can tolerate strain. That’s why the ability to endure being stretched is a sought-after quality in flexible electronics, ...

(Nanowerk Spotlight) For over fifty years, the relentless miniaturization of silicon transistors has upheld Moore’s Law, delivering exponential leaps in computing power. However, this development ...

(Nanowerk Spotlight) Organic semiconductors have long held promise for enabling deformable electronic devices that can be manufactured at low cost and high volumes using printing techniques. However, ...