Updates in silicon and electronics technology.
Ed.: This is a special feature courtesy of Binghamton University.
Breakthrough quantum-dot transistors create a flexible alternative to conventional electronics. Researchers at Los Alamos National Laboratory have created fundamental electronic building blocks out of tiny structures known as quantum dots and used them to assemble functional logic circuits. This development provides a low-cost and manufacturing-friendly approach to complex electronic devices. The building blocks can be fabricated in a laboratory with simple, solution-based techniques, and provide these components for a host of innovative devices. Potential applications of the new approach to electronic devices based on non-toxic quantum dots include printable circuits, flexible displays, lab-on-a-chip, wearable devices, medical testing, smart implants, and biometrics. (IEEC file #11971, Science Daily, 10/29/20)
This flexible and rechargeable battery is 10 times more powerful than state-of-the-art. University of California researchers working with ZPower have developed a flexible, rechargeable silver oxide-zinc battery that provides five to 10 times greater energy density than current state-of-the-art. The battery also is easier to manufacture, as it can be screen-printed in normal lab conditions. The areal capacity for this innovative battery is 50ma/cm2 at room temperature, which is 10 to 20 times greater than the areal capacity of a typical lithium-ion battery. The device can be used in flexible, stretchable electronics for wearables as well as soft robotics. (IEEC file #12027, Science Daily, 12/7/20)
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