For the first time, researchers were able to observe a "pinhole" within a device and observe how it degrades in real-time. Credit: Mkhoyan Lab, University of Minnesota For the first time, researchers ...

(Nanowerk News) A new study led by researchers at the University of Minnesota Twin Cities is providing new insights into how next-generation electronics, including memory components in computers, ...

(Nanowerk News) As the integrated circuits that power our electronic devices get more powerful, they are also getting smaller. This trend of microelectronics has only accelerated in recent years as ...

Researchers in the UC Santa Barbara Materials Department have uncovered the elusive quantum mechanism by which energetic electrons break chemical bonds inside microelectronic devices—a detrimental ...

If a charged particle beam interacts with structures of different electric conductivity in a microelectronic circuit, this leads to local changes in the electric potential at its surface. In a ...

In a paper in Nature, Górski et al. 1 report tiny, light-powered devices that produce the electric current needed to drive microlitre-scale electrochemical reactions. The devices can be used to run ...

Available with outside diameters as small as 0.89 mm and inside diameters down to 0.28 mm, Nano-forms epoxy preforms provide precision seals for microelectronics. Applications include fiber-optic ...

A new study is providing new insights into how next-generation electronics, including memory components in computers, breakdown or degrade over time. A new study led by researchers at the University ...

Researchers have created a new material that uses 'redox gating' to control the movement of electrons in and out of a semiconducting material. Breakthrough could help lead to the development of new ...

For the first time, researchers were able to observe a “pinhole” within a device and observe how it degrades in real-time. MINNEAPOLIS / ST. PAUL (09/13/2024) — A new study led by researchers at the ...

Illustration of redox gating for carrier manipulation and electric field control of the electronic state. The green threads represent functional molecules for redox gating, and the ability to function ...

LEMONT, Ill.--(BUSINESS WIRE)--As the integrated circuits that power our electronic devices get more powerful, they are also getting smaller. This trend of microelectronics has only accelerated in ...